protein_name
stringlengths 7
11
| species
stringclasses 219
values | sequence
stringlengths 2
34.4k
| annotation
stringlengths 6
11.5k
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listlengths 3
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NEUR2_HUMAN
|
Homo sapiens
|
MASLPVLQKESVFQSGAHAYRIPALLYLPGQQSLLAFAEQRASKKDEHAELIVLRRGDYDAPTHQVQWQAQEVVAQARLDGHRSMNPCPLYDAQTGTLFLFFIAIPGQVTEQQQLQTRANVTRLCQVTSTDHGRTWSSPRDLTDAAIGPAYREWSTFAVGPGHCLQLHDRARSLVVPAYAYRKLHPIQRPIPSAFCFLSHDHGRTWARGHFVAQDTLECQVAEVETGEQRVVTLNARSHLRARVQAQSTNDGLDFQESQLVKKLVEPPPQGCQGSVISFPSPRSGPGSPAQWLLYTHPTHSWQRADLGAYLNPRPPAPEAWSEPVLLAKGSCAYSDLQSMGTGPDGSPLFGCLYEANDYEEIVFLMFTLKQAFPAEYLPQ
|
Exo-alpha-sialidase that catalyzes the hydrolytic cleavage of the terminal sialic acid (N-acetylneuraminic acid, Neu5Ac) of a glycan moiety in the catabolism of glycolipids, glycoproteins and oligosacharides (, ). Recognizes sialyl linkage positions of the glycan moiety as well as the supramolecular organization of the sialoglycoconjugate. Displays preference for alpha-(2->3)-sialylated GD1a and GT1B gangliosides over alpha-(2->8)-sialylated GD1b, in both monomeric forms and micelles. Hydrolyzes monomeric GM1 ganglioside, but has no activity toward the miscellar form . Has lower sialidase activity for glycoproteins such as fetuin and TF/transferrin that carry a mixture of alpha-(2->3) and alpha-(2->6)-sialyl linkages. Cleaves milk oligosaccharide alpha-(2->3)-sialyllactose, but is inactive toward alpha-(2->6)-sialyllactose isomer. Has no activity toward colominic acid, a homomer of alpha-(2->8)-linked Neu5Ac residues .
Subcellular locations: Cytoplasm, Cytosol
Expressed in skeletal muscle, fetal liver and embryonic carcinoma cell line NT2-D1.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NEUR2_HUMAN\n - species: Homo sapiens\n - sequence: MASLPVLQKESVFQSGAHAYRIPALLYLPGQQSLLAFAEQRASKKDEHAELIVLRRGDYDAPTHQVQWQAQEVVAQARLDGHRSMNPCPLYDAQTGTLFLFFIAIPGQVTEQQQLQTRANVTRLCQVTSTDHGRTWSSPRDLTDAAIGPAYREWSTFAVGPGHCLQLHDRARSLVVPAYAYRKLHPIQRPIPSAFCFLSHDHGRTWARGHFVAQDTLECQVAEVETGEQRVVTLNARSHLRARVQAQSTNDGLDFQESQLVKKLVEPPPQGCQGSVISFPSPRSGPGSPAQWLLYTHPTHSWQRADLGAYLNPRPPAPEAWSEPVLLAKGSCAYSDLQSMGTGPDGSPLFGCLYEANDYEEIVFLMFTLKQAFPAEYLPQ\n ",
"role": "user"
},
{
"content": "Exo-alpha-sialidase that catalyzes the hydrolytic cleavage of the terminal sialic acid (N-acetylneuraminic acid, Neu5Ac) of a glycan moiety in the catabolism of glycolipids, glycoproteins and oligosacharides (, ). Recognizes sialyl linkage positions of the glycan moiety as well as the supramolecular organization of the sialoglycoconjugate. Displays preference for alpha-(2->3)-sialylated GD1a and GT1B gangliosides over alpha-(2->8)-sialylated GD1b, in both monomeric forms and micelles. Hydrolyzes monomeric GM1 ganglioside, but has no activity toward the miscellar form . Has lower sialidase activity for glycoproteins such as fetuin and TF/transferrin that carry a mixture of alpha-(2->3) and alpha-(2->6)-sialyl linkages. Cleaves milk oligosaccharide alpha-(2->3)-sialyllactose, but is inactive toward alpha-(2->6)-sialyllactose isomer. Has no activity toward colominic acid, a homomer of alpha-(2->8)-linked Neu5Ac residues .\nSubcellular locations: Cytoplasm, Cytosol\nExpressed in skeletal muscle, fetal liver and embryonic carcinoma cell line NT2-D1.",
"role": "assistant"
}
] |
GPD1L_PONAB
|
Pongo abelii
|
MAAAPLKVCIVGSGNWGSAVAKIIGNNVKKLQKFASTVKMWVFEETVNGRKLTDIINNDHENVKYLPGHKLPENVVAISNLSEAVQDADLLVFVIPHQFIHRICDEITGRVPKKALGITLIKGIDEGPEGLKLISDIIREKMGIDISVLMGANIANEVAAEKFCETTIGSKVMENGLLFKELLQTPNFRITVVDDADTVELCGALKNIVAVGAGFCDGLRCGDNTKAAVIRLGLMEMIAFARIFCKGQVSTATFLESCGVADLITTCYGGRNRRVAEAFARTGKTIEELEKEMLNGQKLQGPQTSAEVYRILKQKGLLDKFPLFTAVYQICYESRPVQGMLSCLQSHPEHT
|
Plays a role in regulating cardiac sodium current; decreased enzymatic activity with resulting increased levels of glycerol 3-phosphate activating the DPD1L-dependent SCN5A phosphorylation pathway, may ultimately lead to decreased sodium current; cardiac sodium current may also be reduced due to alterations of NAD(H) balance induced by DPD1L.
Subcellular locations: Cytoplasm
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: GPD1L_PONAB\n - species: Pongo abelii\n - sequence: MAAAPLKVCIVGSGNWGSAVAKIIGNNVKKLQKFASTVKMWVFEETVNGRKLTDIINNDHENVKYLPGHKLPENVVAISNLSEAVQDADLLVFVIPHQFIHRICDEITGRVPKKALGITLIKGIDEGPEGLKLISDIIREKMGIDISVLMGANIANEVAAEKFCETTIGSKVMENGLLFKELLQTPNFRITVVDDADTVELCGALKNIVAVGAGFCDGLRCGDNTKAAVIRLGLMEMIAFARIFCKGQVSTATFLESCGVADLITTCYGGRNRRVAEAFARTGKTIEELEKEMLNGQKLQGPQTSAEVYRILKQKGLLDKFPLFTAVYQICYESRPVQGMLSCLQSHPEHT\n ",
"role": "user"
},
{
"content": "Plays a role in regulating cardiac sodium current; decreased enzymatic activity with resulting increased levels of glycerol 3-phosphate activating the DPD1L-dependent SCN5A phosphorylation pathway, may ultimately lead to decreased sodium current; cardiac sodium current may also be reduced due to alterations of NAD(H) balance induced by DPD1L.\nSubcellular locations: Cytoplasm",
"role": "assistant"
}
] |
FBX15_HUMAN
|
Homo sapiens
|
MATGRGRILQQHWLGLQTLRGPSRGGGAARGRARAFGCRKGPGVKLSAGSAALRCHAGGGQHWESSFSCCSGFLDGMPSEILLKIFSYLDAVSLLCTGCVSRRFYHLANDNFIWIGIYSTAFSPARSNWKFNSVEKIAMSMSFLSVQDKEAGYWKKEYITKQIASVKAALADILKPVNPYTGLPVKTKEALRIFGLGWAIILKEKGGKEYIMEHVDLSINDTSVTVIWYGKKWPCLASLSTLDLCGMTPVFTDWYKTPTKHRLRWHSLIAKYNLSHLTISTMIGCDRLIRIFCLHPGLLVGVWKKEEELAFVMANLHFHHLVERSTLGSATIPYELPPHSPFLDDSPEYGLHGYQLHVDLHSGGVFYLCGTFRNLFTKRGNIENGHVKLIVIHLKNNREHLPLIGKVGLSWKTDIFDGCIKSCSMMDVTLLDEHGKPFWCFSSPVCLRSPATPSDSSSFLGQTYNVDYVDAEGRVHVELVWIRETEEYLIVNLVLYLSIAKINHWFGTEY
|
Substrate-recognition component of the SCF (SKP1-CUL1-F-box protein)-type E3 ubiquitin ligase complex.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: FBX15_HUMAN\n - species: Homo sapiens\n - sequence: MATGRGRILQQHWLGLQTLRGPSRGGGAARGRARAFGCRKGPGVKLSAGSAALRCHAGGGQHWESSFSCCSGFLDGMPSEILLKIFSYLDAVSLLCTGCVSRRFYHLANDNFIWIGIYSTAFSPARSNWKFNSVEKIAMSMSFLSVQDKEAGYWKKEYITKQIASVKAALADILKPVNPYTGLPVKTKEALRIFGLGWAIILKEKGGKEYIMEHVDLSINDTSVTVIWYGKKWPCLASLSTLDLCGMTPVFTDWYKTPTKHRLRWHSLIAKYNLSHLTISTMIGCDRLIRIFCLHPGLLVGVWKKEEELAFVMANLHFHHLVERSTLGSATIPYELPPHSPFLDDSPEYGLHGYQLHVDLHSGGVFYLCGTFRNLFTKRGNIENGHVKLIVIHLKNNREHLPLIGKVGLSWKTDIFDGCIKSCSMMDVTLLDEHGKPFWCFSSPVCLRSPATPSDSSSFLGQTYNVDYVDAEGRVHVELVWIRETEEYLIVNLVLYLSIAKINHWFGTEY\n ",
"role": "user"
},
{
"content": "Substrate-recognition component of the SCF (SKP1-CUL1-F-box protein)-type E3 ubiquitin ligase complex.",
"role": "assistant"
}
] |
GPX4_PONPY
|
Pongo pygmaeus
|
MSLGRLCRLLKPALLCGALAAPGLAGTMCASRDDWRCARSMHEFSAKDIDGHMVNLDKYRGFVCIVTNVASQUGKTEVNYTQLVDLHARYAECGLRILAFPCNQFGKQEPGSNEEIKEFAAGYNVKFDMFSKICVNGDDAHPLWKWMKIQPKGKGILGNAIKWNFTKFLIDKNGCVVKRYGPMEEPLVIEKDLPHYF
|
Essential antioxidant peroxidase that directly reduces phospholipid hydroperoxide even if they are incorporated in membranes and lipoproteins (By similarity). Can also reduce fatty acid hydroperoxide, cholesterol hydroperoxide and thymine hydroperoxide (By similarity). Plays a key role in protecting cells from oxidative damage by preventing membrane lipid peroxidation (By similarity). Required to prevent cells from ferroptosis, a non-apoptotic cell death resulting from an iron-dependent accumulation of lipid reactive oxygen species (By similarity). The presence of selenocysteine (Sec) versus Cys at the active site is essential for life: it provides resistance to overoxidation and prevents cells against ferroptosis (By similarity). The presence of Sec at the active site is also essential for the survival of a specific type of parvalbumin-positive interneurons, thereby preventing against fatal epileptic seizures (By similarity). May be required to protect cells from the toxicity of ingested lipid hydroperoxides (By similarity). Required for normal sperm development and male fertility (By similarity). Essential for maturation and survival of photoreceptor cells (By similarity). Plays a role in a primary T-cell response to viral and parasitic infection by protecting T-cells from ferroptosis and by supporting T-cell expansion (By similarity). Plays a role of glutathione peroxidase in platelets in the arachidonic acid metabolism (By similarity). Reduces hydroperoxy ester lipids formed by a 15-lipoxygenase that may play a role as down-regulator of the cellular 15-lipoxygenase pathway (By similarity). Can also reduce small soluble hydroperoxides such as H2O2, cumene hydroperoxide and tert-butyl hydroperoxide (By similarity).
Subcellular locations: Mitochondrion
Subcellular locations: Cytoplasm
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: GPX4_PONPY\n - species: Pongo pygmaeus\n - sequence: MSLGRLCRLLKPALLCGALAAPGLAGTMCASRDDWRCARSMHEFSAKDIDGHMVNLDKYRGFVCIVTNVASQUGKTEVNYTQLVDLHARYAECGLRILAFPCNQFGKQEPGSNEEIKEFAAGYNVKFDMFSKICVNGDDAHPLWKWMKIQPKGKGILGNAIKWNFTKFLIDKNGCVVKRYGPMEEPLVIEKDLPHYF\n ",
"role": "user"
},
{
"content": "Essential antioxidant peroxidase that directly reduces phospholipid hydroperoxide even if they are incorporated in membranes and lipoproteins (By similarity). Can also reduce fatty acid hydroperoxide, cholesterol hydroperoxide and thymine hydroperoxide (By similarity). Plays a key role in protecting cells from oxidative damage by preventing membrane lipid peroxidation (By similarity). Required to prevent cells from ferroptosis, a non-apoptotic cell death resulting from an iron-dependent accumulation of lipid reactive oxygen species (By similarity). The presence of selenocysteine (Sec) versus Cys at the active site is essential for life: it provides resistance to overoxidation and prevents cells against ferroptosis (By similarity). The presence of Sec at the active site is also essential for the survival of a specific type of parvalbumin-positive interneurons, thereby preventing against fatal epileptic seizures (By similarity). May be required to protect cells from the toxicity of ingested lipid hydroperoxides (By similarity). Required for normal sperm development and male fertility (By similarity). Essential for maturation and survival of photoreceptor cells (By similarity). Plays a role in a primary T-cell response to viral and parasitic infection by protecting T-cells from ferroptosis and by supporting T-cell expansion (By similarity). Plays a role of glutathione peroxidase in platelets in the arachidonic acid metabolism (By similarity). Reduces hydroperoxy ester lipids formed by a 15-lipoxygenase that may play a role as down-regulator of the cellular 15-lipoxygenase pathway (By similarity). Can also reduce small soluble hydroperoxides such as H2O2, cumene hydroperoxide and tert-butyl hydroperoxide (By similarity).\nSubcellular locations: Mitochondrion\nSubcellular locations: Cytoplasm",
"role": "assistant"
}
] |
ODC_PONAB
|
Pongo abelii
|
MSAKPEVGLVREASRQIVAGGSAGLVEICLMHPLDVVKTRFQIQRCATDPNSYKSLVDSFRMIFQTERLFGFYKGILPPILAETPKRAVKFFTFEQYKKLLGYVSLSPALTFTIAGLGSGLTEAIVVNPFEVVKVGLQANRNTFAKQPSTVGYARQIIKKEGWGLQGLNKGLTATLGRHGVFNMVYFGFYYNVKNMIPVNKDPTLEFLRKFGIGLLSGTIASVINIPFDVAKSRIQGPQPVPGEIKYRTCFKTMATVYQEEGILALYKGLLPKIMRLGPGGAVMLLVYEYTYSWLQENW
|
Transports dicarboxylates across the inner membranes of mitochondria by a counter-exchange mechanism. Can transport 2-oxoadipate (2-oxohexanedioate), 2-oxoglutarate, adipate (hexanedioate), glutarate, and to a lesser extent, pimelate (heptanedioate), 2-oxopimelate (2-oxoheptanedioate), 2-aminoadipate (2-aminohexanedioate), oxaloacetate, and citrate. Plays a central role in catabolism of lysine, hydroxylysine, and tryptophan, by transporting common metabolite intermediates (such as 2-oxoadipate) into the mitochondria, where it is converted into acetyl-CoA and can enter the citric acid (TCA) cycle.
Subcellular locations: Mitochondrion inner membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ODC_PONAB\n - species: Pongo abelii\n - sequence: MSAKPEVGLVREASRQIVAGGSAGLVEICLMHPLDVVKTRFQIQRCATDPNSYKSLVDSFRMIFQTERLFGFYKGILPPILAETPKRAVKFFTFEQYKKLLGYVSLSPALTFTIAGLGSGLTEAIVVNPFEVVKVGLQANRNTFAKQPSTVGYARQIIKKEGWGLQGLNKGLTATLGRHGVFNMVYFGFYYNVKNMIPVNKDPTLEFLRKFGIGLLSGTIASVINIPFDVAKSRIQGPQPVPGEIKYRTCFKTMATVYQEEGILALYKGLLPKIMRLGPGGAVMLLVYEYTYSWLQENW\n ",
"role": "user"
},
{
"content": "Transports dicarboxylates across the inner membranes of mitochondria by a counter-exchange mechanism. Can transport 2-oxoadipate (2-oxohexanedioate), 2-oxoglutarate, adipate (hexanedioate), glutarate, and to a lesser extent, pimelate (heptanedioate), 2-oxopimelate (2-oxoheptanedioate), 2-aminoadipate (2-aminohexanedioate), oxaloacetate, and citrate. Plays a central role in catabolism of lysine, hydroxylysine, and tryptophan, by transporting common metabolite intermediates (such as 2-oxoadipate) into the mitochondria, where it is converted into acetyl-CoA and can enter the citric acid (TCA) cycle.\nSubcellular locations: Mitochondrion inner membrane",
"role": "assistant"
}
] |
AT8B1_HUMAN
|
Homo sapiens
|
MSTERDSETTFDEDSQPNDEVVPYSDDETEDELDDQGSAVEPEQNRVNREAEENREPFRKECTWQVKANDRKYHEQPHFMNTKFLCIKESKYANNAIKTYKYNAFTFIPMNLFEQFKRAANLYFLALLILQAVPQISTLAWYTTLVPLLVVLGVTAIKDLVDDVARHKMDKEINNRTCEVIKDGRFKVAKWKEIQVGDVIRLKKNDFVPADILLLSSSEPNSLCYVETAELDGETNLKFKMSLEITDQYLQREDTLATFDGFIECEEPNNRLDKFTGTLFWRNTSFPLDADKILLRGCVIRNTDFCHGLVIFAGADTKIMKNSGKTRFKRTKIDYLMNYMVYTIFVVLILLSAGLAIGHAYWEAQVGNSSWYLYDGEDDTPSYRGFLIFWGYIIVLNTMVPISLYVSVEVIRLGQSHFINWDLQMYYAEKDTPAKARTTTLNEQLGQIHYIFSDKTGTLTQNIMTFKKCCINGQIYGDHRDASQHNHNKIEQVDFSWNTYADGKLAFYDHYLIEQIQSGKEPEVRQFFFLLAVCHTVMVDRTDGQLNYQAASPDEGALVNAARNFGFAFLARTQNTITISELGTERTYNVLAILDFNSDRKRMSIIVRTPEGNIKLYCKGADTVIYERLHRMNPTKQETQDALDIFANETLRTLCLCYKEIEEKEFTEWNKKFMAASVASTNRDEALDKVYEEIEKDLILLGATAIEDKLQDGVPETISKLAKADIKIWVLTGDKKETAENIGFACELLTEDTTICYGEDINSLLHARMENQRNRGGVYAKFAPPVQESFFPPGGNRALIITGSWLNEILLEKKTKRNKILKLKFPRTEEERRMRTQSKRRLEAKKEQRQKNFVDLACECSAVICCRVTPKQKAMVVDLVKRYKKAITLAIGDGANDVNMIKTAHIGVGISGQEGMQAVMSSDYSFAQFRYLQRLLLVHGRWSYIRMCKFLRYFFYKNFAFTLVHFWYSFFNGYSAQTAYEDWFITLYNVLYTSLPVLLMGLLDQDVSDKLSLRFPGLYIVGQRDLLFNYKRFFVSLLHGVLTSMILFFIPLGAYLQTVGQDGEAPSDYQSFAVTIASALVITVNFQIGLDTSYWTFVNAFSIFGSIALYFGIMFDFHSAGIHVLFPSAFQFTGTASNALRQPYIWLTIILAVAVCLLPVVAIRFLSMTIWPSESDKIQKHRKRLKAEEQWQRRQQVFRRGVSTRRSAYAFSHQRGYADLISSGRSIRKKRSPLDAIVADGTAEYRRTGDS
|
Catalytic component of a P4-ATPase flippase complex which catalyzes the hydrolysis of ATP coupled to the transport of phospholipids, in particular phosphatidylcholines (PC), from the outer to the inner leaflet of the plasma membrane (, ). May participate in the establishment of the canalicular membrane integrity by ensuring asymmetric distribution of phospholipids in the canicular membrane (By similarity). Thus may have a role in the regulation of bile acids transport into the canaliculus, uptake of bile acids from intestinal contents into intestinal mucosa or both and protect hepatocytes from bile salts (By similarity). Involved in the microvillus formation in polarized epithelial cells; the function seems to be independent from its flippase activity . Participates in correct apical membrane localization of CDC42, CFTR and SLC10A2 (, ). Enables CDC42 clustering at the apical membrane during enterocyte polarization through the interaction between CDC42 polybasic region and negatively charged membrane lipids provided by ATP8B1 (By similarity). Together with TMEM30A is involved in uptake of the synthetic drug alkylphospholipid perifosine . Required for the preservation of cochlear hair cells in the inner ear (By similarity). May act as cardiolipin transporter during inflammatory injury (By similarity).
Subcellular locations: Cell membrane, Apical cell membrane, Cell projection, Stereocilium, Endoplasmic reticulum, Golgi apparatus
Exit from the endoplasmic reticulum requires the presence of TMEM30A or TMEM30B . Localizes to apical membranes in epithelial cells .
Found in most tissues except brain and skeletal muscle. Most abundant in pancreas and small intestine.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: AT8B1_HUMAN\n - species: Homo sapiens\n - sequence: MSTERDSETTFDEDSQPNDEVVPYSDDETEDELDDQGSAVEPEQNRVNREAEENREPFRKECTWQVKANDRKYHEQPHFMNTKFLCIKESKYANNAIKTYKYNAFTFIPMNLFEQFKRAANLYFLALLILQAVPQISTLAWYTTLVPLLVVLGVTAIKDLVDDVARHKMDKEINNRTCEVIKDGRFKVAKWKEIQVGDVIRLKKNDFVPADILLLSSSEPNSLCYVETAELDGETNLKFKMSLEITDQYLQREDTLATFDGFIECEEPNNRLDKFTGTLFWRNTSFPLDADKILLRGCVIRNTDFCHGLVIFAGADTKIMKNSGKTRFKRTKIDYLMNYMVYTIFVVLILLSAGLAIGHAYWEAQVGNSSWYLYDGEDDTPSYRGFLIFWGYIIVLNTMVPISLYVSVEVIRLGQSHFINWDLQMYYAEKDTPAKARTTTLNEQLGQIHYIFSDKTGTLTQNIMTFKKCCINGQIYGDHRDASQHNHNKIEQVDFSWNTYADGKLAFYDHYLIEQIQSGKEPEVRQFFFLLAVCHTVMVDRTDGQLNYQAASPDEGALVNAARNFGFAFLARTQNTITISELGTERTYNVLAILDFNSDRKRMSIIVRTPEGNIKLYCKGADTVIYERLHRMNPTKQETQDALDIFANETLRTLCLCYKEIEEKEFTEWNKKFMAASVASTNRDEALDKVYEEIEKDLILLGATAIEDKLQDGVPETISKLAKADIKIWVLTGDKKETAENIGFACELLTEDTTICYGEDINSLLHARMENQRNRGGVYAKFAPPVQESFFPPGGNRALIITGSWLNEILLEKKTKRNKILKLKFPRTEEERRMRTQSKRRLEAKKEQRQKNFVDLACECSAVICCRVTPKQKAMVVDLVKRYKKAITLAIGDGANDVNMIKTAHIGVGISGQEGMQAVMSSDYSFAQFRYLQRLLLVHGRWSYIRMCKFLRYFFYKNFAFTLVHFWYSFFNGYSAQTAYEDWFITLYNVLYTSLPVLLMGLLDQDVSDKLSLRFPGLYIVGQRDLLFNYKRFFVSLLHGVLTSMILFFIPLGAYLQTVGQDGEAPSDYQSFAVTIASALVITVNFQIGLDTSYWTFVNAFSIFGSIALYFGIMFDFHSAGIHVLFPSAFQFTGTASNALRQPYIWLTIILAVAVCLLPVVAIRFLSMTIWPSESDKIQKHRKRLKAEEQWQRRQQVFRRGVSTRRSAYAFSHQRGYADLISSGRSIRKKRSPLDAIVADGTAEYRRTGDS\n ",
"role": "user"
},
{
"content": "Catalytic component of a P4-ATPase flippase complex which catalyzes the hydrolysis of ATP coupled to the transport of phospholipids, in particular phosphatidylcholines (PC), from the outer to the inner leaflet of the plasma membrane (, ). May participate in the establishment of the canalicular membrane integrity by ensuring asymmetric distribution of phospholipids in the canicular membrane (By similarity). Thus may have a role in the regulation of bile acids transport into the canaliculus, uptake of bile acids from intestinal contents into intestinal mucosa or both and protect hepatocytes from bile salts (By similarity). Involved in the microvillus formation in polarized epithelial cells; the function seems to be independent from its flippase activity . Participates in correct apical membrane localization of CDC42, CFTR and SLC10A2 (, ). Enables CDC42 clustering at the apical membrane during enterocyte polarization through the interaction between CDC42 polybasic region and negatively charged membrane lipids provided by ATP8B1 (By similarity). Together with TMEM30A is involved in uptake of the synthetic drug alkylphospholipid perifosine . Required for the preservation of cochlear hair cells in the inner ear (By similarity). May act as cardiolipin transporter during inflammatory injury (By similarity).\nSubcellular locations: Cell membrane, Apical cell membrane, Cell projection, Stereocilium, Endoplasmic reticulum, Golgi apparatus\nExit from the endoplasmic reticulum requires the presence of TMEM30A or TMEM30B . Localizes to apical membranes in epithelial cells .\nFound in most tissues except brain and skeletal muscle. Most abundant in pancreas and small intestine.",
"role": "assistant"
}
] |
CC163_HUMAN
|
Homo sapiens
|
MNTSLSWFEQLDVLLNATDGNVVRNKQWLYPLGVSTELIGLCICFFCSSGCIFLGSPPQNSTAVTPAVLWEESEIMQKELKLLQYQLSQHQELLLKQLAEGRQAQVGSWKIPRGAPFLTWSPASFSSMPRVLSKRTYSFGAPKCS
|
Subcellular locations: Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CC163_HUMAN\n - species: Homo sapiens\n - sequence: MNTSLSWFEQLDVLLNATDGNVVRNKQWLYPLGVSTELIGLCICFFCSSGCIFLGSPPQNSTAVTPAVLWEESEIMQKELKLLQYQLSQHQELLLKQLAEGRQAQVGSWKIPRGAPFLTWSPASFSSMPRVLSKRTYSFGAPKCS\n ",
"role": "user"
},
{
"content": "Subcellular locations: Membrane",
"role": "assistant"
}
] |
NEUM_MACFA
|
Macaca fascicularis
|
MLCCMRRTKQVEKNDEDQKIEQDGIKPEDKAHKAATKIQASFRGHITRKKLKGEKKDDAQAAEAEANKKDEAPVADGVEKKGEGTTATEAAPATGSKPDEPGKAGETPSEEKKGEGDAATEQAAPQAPASSEEKAGSAETESATKASTDNSPSSKAEDAPAKEEPKQADVPAAVTAAAATTPAAEDAAAKATAQPPTETGESSQAEENIEAVDETKPKESARQDEGKEEEPEADQEHA
|
This protein is associated with nerve growth. It is a major component of the motile 'growth cones' that form the tips of elongating axons. Plays a role in axonal and dendritic filopodia induction (By similarity).
Subcellular locations: Cell membrane, Cell projection, Growth cone membrane, Synapse, Cell projection, Filopodium membrane, Perikaryon, Cell projection, Dendrite, Cell projection, Axon, Cytoplasm
Cytoplasmic surface of growth cone and synaptic plasma membranes.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NEUM_MACFA\n - species: Macaca fascicularis\n - sequence: MLCCMRRTKQVEKNDEDQKIEQDGIKPEDKAHKAATKIQASFRGHITRKKLKGEKKDDAQAAEAEANKKDEAPVADGVEKKGEGTTATEAAPATGSKPDEPGKAGETPSEEKKGEGDAATEQAAPQAPASSEEKAGSAETESATKASTDNSPSSKAEDAPAKEEPKQADVPAAVTAAAATTPAAEDAAAKATAQPPTETGESSQAEENIEAVDETKPKESARQDEGKEEEPEADQEHA\n ",
"role": "user"
},
{
"content": "This protein is associated with nerve growth. It is a major component of the motile 'growth cones' that form the tips of elongating axons. Plays a role in axonal and dendritic filopodia induction (By similarity).\nSubcellular locations: Cell membrane, Cell projection, Growth cone membrane, Synapse, Cell projection, Filopodium membrane, Perikaryon, Cell projection, Dendrite, Cell projection, Axon, Cytoplasm\nCytoplasmic surface of growth cone and synaptic plasma membranes.",
"role": "assistant"
}
] |
STAM1_HUMAN
|
Homo sapiens
|
MPLFATNPFDQDVEKATSEMNTAEDWGLILDICDKVGQSRTGPKDCLRSIMRRVNHKDPHVAMQALTLLGACVSNCGKIFHLEVCSRDFASEVSNVLNKGHPKVCEKLKALMVEWTDEFKNDPQLSLISAMIKNLKEQGVTFPAIGSQAAEQAKASPALVAKDPGTVANKKEEEDLAKAIELSLKEQRQQSTTLSTLYPSTSSLLTNHQHEGRKVRAIYDFEAAEDNELTFKAGEIITVLDDSDPNWWKGETHQGIGLFPSNFVTADLTAEPEMIKTEKKTVQFSDDVQVETIEPEPEPAFIDEDKMDQLLQMLQSTDPSDDQPDLPELLHLEAMCHQMGPLIDEKLEDIDRKHSELSELNVKVMEALSLYTKLMNEDPMYSMYAKLQNQPYYMQSSGVSGSQVYAGPPPSGAYLVAGNAQMSHLQSYSLPPEQLSSLSQAVVPPSANPALPSQQTQAAYPNTMVSSVQGNTYPSQAPVYSPPPAATAAAATADVTLYQNAGPNMPQVPNYNLTSSTLPQPGGSQQPPQPQQPYSQKALL
|
Involved in intracellular signal transduction mediated by cytokines and growth factors. Upon IL-2 and GM-CSL stimulation, it plays a role in signaling leading to DNA synthesis and MYC induction. May also play a role in T-cell development. Involved in down-regulation of receptor tyrosine kinase via multivesicular body (MVBs) when complexed with HGS (ESCRT-0 complex). The ESCRT-0 complex binds ubiquitin and acts as a sorting machinery that recognizes ubiquitinated receptors and transfers them to further sequential lysosomal sorting/trafficking processes.
(Microbial infection) Plays an important role in Dengue virus entry.
Subcellular locations: Cytoplasm, Early endosome membrane
Ubiquitously expressed.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: STAM1_HUMAN\n - species: Homo sapiens\n - sequence: MPLFATNPFDQDVEKATSEMNTAEDWGLILDICDKVGQSRTGPKDCLRSIMRRVNHKDPHVAMQALTLLGACVSNCGKIFHLEVCSRDFASEVSNVLNKGHPKVCEKLKALMVEWTDEFKNDPQLSLISAMIKNLKEQGVTFPAIGSQAAEQAKASPALVAKDPGTVANKKEEEDLAKAIELSLKEQRQQSTTLSTLYPSTSSLLTNHQHEGRKVRAIYDFEAAEDNELTFKAGEIITVLDDSDPNWWKGETHQGIGLFPSNFVTADLTAEPEMIKTEKKTVQFSDDVQVETIEPEPEPAFIDEDKMDQLLQMLQSTDPSDDQPDLPELLHLEAMCHQMGPLIDEKLEDIDRKHSELSELNVKVMEALSLYTKLMNEDPMYSMYAKLQNQPYYMQSSGVSGSQVYAGPPPSGAYLVAGNAQMSHLQSYSLPPEQLSSLSQAVVPPSANPALPSQQTQAAYPNTMVSSVQGNTYPSQAPVYSPPPAATAAAATADVTLYQNAGPNMPQVPNYNLTSSTLPQPGGSQQPPQPQQPYSQKALL\n ",
"role": "user"
},
{
"content": "Involved in intracellular signal transduction mediated by cytokines and growth factors. Upon IL-2 and GM-CSL stimulation, it plays a role in signaling leading to DNA synthesis and MYC induction. May also play a role in T-cell development. Involved in down-regulation of receptor tyrosine kinase via multivesicular body (MVBs) when complexed with HGS (ESCRT-0 complex). The ESCRT-0 complex binds ubiquitin and acts as a sorting machinery that recognizes ubiquitinated receptors and transfers them to further sequential lysosomal sorting/trafficking processes.\n(Microbial infection) Plays an important role in Dengue virus entry.\nSubcellular locations: Cytoplasm, Early endosome membrane\nUbiquitously expressed.",
"role": "assistant"
}
] |
PSME4_HUMAN
|
Homo sapiens
|
MEPAERAGVGEPPEPGGRPEPGPRGFVPQKEIVYNKLLPYAERLDAESDLQLAQIKCNLGRAVQLQELWPGGLFWTRKLSTYIRLYGRKFSKEDHVLFIKLLYELVSIPKLEISMMQGFARLLINLLKKKELLSRADLELPWRPLYDMVERILYSKTEHLGLNWFPNSVENILKTLVKSCRPYFPADATAEMLEEWRPLMCPFDVTMQKAITYFEIFLPTSLPPELHHKGFKLWFDELIGLWVSVQNLPQWEGQLVNLFARLATDNIGYIDWDPYVPKIFTRILRSLNLPVGSSQVLVPRFLTNAYDIGHAVIWITAMMGGPSKLVQKHLAGLFNSITSFYHPSNNGRWLNKLMKLLQRLPNSVVRRLHRERYKKPSWLTPVPDSHKLTDQDVTDFVQCIIQPVLLAMFSKTGSLEAAQALQNLALMRPELVIPPVLERTYPALETLTEPHQLTATLSCVIGVARSLVSGGRWFPEGPTHMLPLLMRALPGVDPNDFSKCMITFQFIATFSTLVPLVDCSSVLQERNDLTEVERELCSATAEFEDFVLQFMDRCFGLIESSTLEQTREETETEKMTHLESLVELGLSSTFSTILTQCSKEIFMVALQKVFNFSTSHIFETRVAGRMVADMCRAAVKCCPEESLKLFVPHCCSVITQLTMNDDVLNDEELDKELLWNLQLLSEITRVDGRKLLLYREQLVKILQRTLHLTCKQGYTLSCNLLHHLLRSTTLIYPTEYCSVPGGFDKPPSEYFPIKDWGKPGDLWNLGIQWHVPSSEEVSFAFYLLDSFLQPELVKLQHCGDGKLEMSRDDILQSLTIVHNCLIGSGNLLPPLKGEPVTNLVPSMVSLEETKLYTGLEYDLSRENHREVIATVIRKLLNHILDNSEDDTKSLFLIIKIIGDLLQFQGSHKHEFDSRWKSFNLVKKSMENRLHGKKQHIRALLIDRVMLQHELRTLTVEGCEYKKIHQDMIRDLLRLSTSSYSQVRNKAQQTFFAALGAYNFCCRDIIPLVLEFLRPDRQGVTQQQFKGALYCLLGNHSGVCLANLHDWDCIVQTWPAIVSSGLSQAMSLEKPSIVRLFDDLAEKIHRQYETIGLDFTIPKSCVEIAELLQQSKNPSINQILLSPEKIKEGIKRQQEKNADALRNYENLVDTLLDGVEQRNLPWKFEHIGIGLLSLLLRDDRVLPLRAIRFFVENLNHDAIVVRKMAISAVAGILKQLKRTHKKLTINPCEISGCPKPTQIIAGDRPDNHWLHYDSKTIPRTKKEWESSCFVEKTHWGYYTWPKNMVVYAGVEEQPKLGRSREDMTEAEQIIFDHFSDPKFVEQLITFLSLEDRKGKDKFNPRRFCLFKGIFRNFDDAFLPVLKPHLEHLVADSHESTQRCVAEIIAGLIRGSKHWTFEKVEKLWELLCPLLRTALSNITVETYNDWGACIATSCESRDPRKLHWLFELLLESPLSGEGGSFVDACRLYVLQGGLAQQEWRVPELLHRLLKYLEPKLTQVYKNVRERIGSVLTYIFMIDVSLPNTTPTISPHVPEFTARILEKLKPLMDVDEEIQNHVMEENGIGEEDERTQGIKLLKTILKWLMASAGRSFSTAVTEQLQLLPLFFKIAPVENDNSYDELKRDAKLCLSLMSQGLLYPHQVPLVLQVLKQTARSSSWHARYTVLTYLQTMVFYNLFIFLNNEDAVKDIRWLVISLLEDEQLEVREMAATTLSGLLQCNFLTMDSPMQIHFEQLCKTKLPKKRKRDPGSVGDTIPSAELVKRHAGVLGLGACVLSSPYDVPTWMPQLLMNLSAHLNDPQPIEMTVKKTLSNFRRTHHDNWQEHKQQFTDDQLLVLTDLLVSPCYYA
|
Associated component of the proteasome that specifically recognizes acetylated histones and promotes ATP- and ubiquitin-independent degradation of core histones during spermatogenesis and DNA damage response. Recognizes and binds acetylated histones via its bromodomain-like (BRDL) region and activates the proteasome by opening the gated channel for substrate entry. Binds to the core proteasome via its C-terminus, which occupies the same binding sites as the proteasomal ATPases, opening the closed structure of the proteasome via an active gating mechanism. Component of the spermatoproteasome, a form of the proteasome specifically found in testis: binds to acetylated histones and promotes degradation of histones, thereby participating actively to the exchange of histones during spermatogenesis. Also involved in DNA damage response in somatic cells, by promoting degradation of histones following DNA double-strand breaks.
Subcellular locations: Cytoplasm, Cytosol, Nucleus, Nucleus speckle
Found in nuclear foci following treatment with ionizing radiation, but not with ultraviolet irradiation or H(2)O(2).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PSME4_HUMAN\n - species: Homo sapiens\n - sequence: MEPAERAGVGEPPEPGGRPEPGPRGFVPQKEIVYNKLLPYAERLDAESDLQLAQIKCNLGRAVQLQELWPGGLFWTRKLSTYIRLYGRKFSKEDHVLFIKLLYELVSIPKLEISMMQGFARLLINLLKKKELLSRADLELPWRPLYDMVERILYSKTEHLGLNWFPNSVENILKTLVKSCRPYFPADATAEMLEEWRPLMCPFDVTMQKAITYFEIFLPTSLPPELHHKGFKLWFDELIGLWVSVQNLPQWEGQLVNLFARLATDNIGYIDWDPYVPKIFTRILRSLNLPVGSSQVLVPRFLTNAYDIGHAVIWITAMMGGPSKLVQKHLAGLFNSITSFYHPSNNGRWLNKLMKLLQRLPNSVVRRLHRERYKKPSWLTPVPDSHKLTDQDVTDFVQCIIQPVLLAMFSKTGSLEAAQALQNLALMRPELVIPPVLERTYPALETLTEPHQLTATLSCVIGVARSLVSGGRWFPEGPTHMLPLLMRALPGVDPNDFSKCMITFQFIATFSTLVPLVDCSSVLQERNDLTEVERELCSATAEFEDFVLQFMDRCFGLIESSTLEQTREETETEKMTHLESLVELGLSSTFSTILTQCSKEIFMVALQKVFNFSTSHIFETRVAGRMVADMCRAAVKCCPEESLKLFVPHCCSVITQLTMNDDVLNDEELDKELLWNLQLLSEITRVDGRKLLLYREQLVKILQRTLHLTCKQGYTLSCNLLHHLLRSTTLIYPTEYCSVPGGFDKPPSEYFPIKDWGKPGDLWNLGIQWHVPSSEEVSFAFYLLDSFLQPELVKLQHCGDGKLEMSRDDILQSLTIVHNCLIGSGNLLPPLKGEPVTNLVPSMVSLEETKLYTGLEYDLSRENHREVIATVIRKLLNHILDNSEDDTKSLFLIIKIIGDLLQFQGSHKHEFDSRWKSFNLVKKSMENRLHGKKQHIRALLIDRVMLQHELRTLTVEGCEYKKIHQDMIRDLLRLSTSSYSQVRNKAQQTFFAALGAYNFCCRDIIPLVLEFLRPDRQGVTQQQFKGALYCLLGNHSGVCLANLHDWDCIVQTWPAIVSSGLSQAMSLEKPSIVRLFDDLAEKIHRQYETIGLDFTIPKSCVEIAELLQQSKNPSINQILLSPEKIKEGIKRQQEKNADALRNYENLVDTLLDGVEQRNLPWKFEHIGIGLLSLLLRDDRVLPLRAIRFFVENLNHDAIVVRKMAISAVAGILKQLKRTHKKLTINPCEISGCPKPTQIIAGDRPDNHWLHYDSKTIPRTKKEWESSCFVEKTHWGYYTWPKNMVVYAGVEEQPKLGRSREDMTEAEQIIFDHFSDPKFVEQLITFLSLEDRKGKDKFNPRRFCLFKGIFRNFDDAFLPVLKPHLEHLVADSHESTQRCVAEIIAGLIRGSKHWTFEKVEKLWELLCPLLRTALSNITVETYNDWGACIATSCESRDPRKLHWLFELLLESPLSGEGGSFVDACRLYVLQGGLAQQEWRVPELLHRLLKYLEPKLTQVYKNVRERIGSVLTYIFMIDVSLPNTTPTISPHVPEFTARILEKLKPLMDVDEEIQNHVMEENGIGEEDERTQGIKLLKTILKWLMASAGRSFSTAVTEQLQLLPLFFKIAPVENDNSYDELKRDAKLCLSLMSQGLLYPHQVPLVLQVLKQTARSSSWHARYTVLTYLQTMVFYNLFIFLNNEDAVKDIRWLVISLLEDEQLEVREMAATTLSGLLQCNFLTMDSPMQIHFEQLCKTKLPKKRKRDPGSVGDTIPSAELVKRHAGVLGLGACVLSSPYDVPTWMPQLLMNLSAHLNDPQPIEMTVKKTLSNFRRTHHDNWQEHKQQFTDDQLLVLTDLLVSPCYYA\n ",
"role": "user"
},
{
"content": "Associated component of the proteasome that specifically recognizes acetylated histones and promotes ATP- and ubiquitin-independent degradation of core histones during spermatogenesis and DNA damage response. Recognizes and binds acetylated histones via its bromodomain-like (BRDL) region and activates the proteasome by opening the gated channel for substrate entry. Binds to the core proteasome via its C-terminus, which occupies the same binding sites as the proteasomal ATPases, opening the closed structure of the proteasome via an active gating mechanism. Component of the spermatoproteasome, a form of the proteasome specifically found in testis: binds to acetylated histones and promotes degradation of histones, thereby participating actively to the exchange of histones during spermatogenesis. Also involved in DNA damage response in somatic cells, by promoting degradation of histones following DNA double-strand breaks.\nSubcellular locations: Cytoplasm, Cytosol, Nucleus, Nucleus speckle\nFound in nuclear foci following treatment with ionizing radiation, but not with ultraviolet irradiation or H(2)O(2).",
"role": "assistant"
}
] |
SALL1_HUMAN
|
Homo sapiens
|
MSRRKQAKPQHFQSDPEVASLPRRDGDTEKGQPSRPTKSKDAHVCGRCCAEFFELSDLLLHKKNCTKNQLVLIVNENPASPPETFSPSPPPDNPDEQMNDTVNKTDQVDCSDLSEHNGLDREESMEVEAPVANKSGSGTSSGSHSSTAPSSSSSSSSSSGGGGSSSTGTSAITTSLPQLGDLTTLGNFSVINSNVIIENLQSTKVAVAQFSQEARCGGASGGKLAVPALMEQLLALQQQQIHQLQLIEQIRHQILLLASQNADLPTSSSPSQGTLRTSANPLSTLSSHLSQQLAAAAGLAQSLASQSASISGVKQLPPIQLPQSSSGNTIIPSNSGSSPNMNILAAAVTTPSSEKVASSAGASHVSNPAVSSSSSPAFAISSLLSPASNPLLPQQASANSVFPSPLPNIGTTAEDLNSLSALAQQRKSKPPNVTAFEAKSTSDEAFFKHKCRFCAKVFGSDSALQIHLRSHTGERPFKCNICGNRFSTKGNLKVHFQRHKEKYPHIQMNPYPVPEHLDNIPTSTGIPYGMSIPPEKPVTSWLDTKPVLPTLTTSVGLPLPPTLPSLIPFIKTEEPAPIPISHSATSPPGSVKSDSGGPESATRNLGGLPEEAEGSTLPPSGGKSEESGMVTNSVPTASSSVLSSPAADCGPAGSATTFTNPLLPLMSEQFKAKFPFGGLLDSAQASETSKLQQLVENIDKKATDPNECIICHRVLSCQSALKMHYRTHTGERPFKCKICGRAFTTKGNLKTHYSVHRAMPPLRVQHSCPICQKKFTNAVVLQQHIRMHMGGQIPNTPVPDSYSESMESDTGSFDEKNFDDLDNFSDENMEDCPEGSIPDTPKSADASQDSLSSSPLPLEMSSIAALENQMKMINAGLAEQLQASLKSVENGSIEGDVLTNDSSSVGGDMESQSAGSPAISESTSSMQALSPSNSTQEFHKSPSIEEKPQRAVPSEFANGLSPTPVNGGALDLTSSHAEKIIKEDSLGILFPFRDRGKFKNTACDICGKTFACQSALDIHYRSHTKERPFICTVCNRGFSTKGNLKQHMLTHQMRDLPSQLFEPSSNLGPNQNSAVIPANSLSSLIKTEVNGFVHVSPQDSKDTPTSHVPSGPLSSSATSPVLLPALPRRTPKQHYCNTCGKTFSSSSALQIHERTHTGEKPFACTICGRAFTTKGNLKVHMGTHMWNSTPARRGRRLSVDGPMTFLGGNPVKFPEMFQKDLAARSGSGDPSSFWNQYAAALSNGLAMKANEISVIQNGGIPPIPGSLGSGNSSPVSGLTGNLERLQNSEPNAPLAGLEKMASSENGTNFRFTRFVEDSKEIVTS
|
Transcriptional repressor involved in organogenesis. Plays an essential role in ureteric bud invasion during kidney development.
Subcellular locations: Nucleus
Highest levels in kidney. Lower levels in adult brain (enriched in corpus callosum, lower expression in substantia nigra) and liver.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SALL1_HUMAN\n - species: Homo sapiens\n - sequence: MSRRKQAKPQHFQSDPEVASLPRRDGDTEKGQPSRPTKSKDAHVCGRCCAEFFELSDLLLHKKNCTKNQLVLIVNENPASPPETFSPSPPPDNPDEQMNDTVNKTDQVDCSDLSEHNGLDREESMEVEAPVANKSGSGTSSGSHSSTAPSSSSSSSSSSGGGGSSSTGTSAITTSLPQLGDLTTLGNFSVINSNVIIENLQSTKVAVAQFSQEARCGGASGGKLAVPALMEQLLALQQQQIHQLQLIEQIRHQILLLASQNADLPTSSSPSQGTLRTSANPLSTLSSHLSQQLAAAAGLAQSLASQSASISGVKQLPPIQLPQSSSGNTIIPSNSGSSPNMNILAAAVTTPSSEKVASSAGASHVSNPAVSSSSSPAFAISSLLSPASNPLLPQQASANSVFPSPLPNIGTTAEDLNSLSALAQQRKSKPPNVTAFEAKSTSDEAFFKHKCRFCAKVFGSDSALQIHLRSHTGERPFKCNICGNRFSTKGNLKVHFQRHKEKYPHIQMNPYPVPEHLDNIPTSTGIPYGMSIPPEKPVTSWLDTKPVLPTLTTSVGLPLPPTLPSLIPFIKTEEPAPIPISHSATSPPGSVKSDSGGPESATRNLGGLPEEAEGSTLPPSGGKSEESGMVTNSVPTASSSVLSSPAADCGPAGSATTFTNPLLPLMSEQFKAKFPFGGLLDSAQASETSKLQQLVENIDKKATDPNECIICHRVLSCQSALKMHYRTHTGERPFKCKICGRAFTTKGNLKTHYSVHRAMPPLRVQHSCPICQKKFTNAVVLQQHIRMHMGGQIPNTPVPDSYSESMESDTGSFDEKNFDDLDNFSDENMEDCPEGSIPDTPKSADASQDSLSSSPLPLEMSSIAALENQMKMINAGLAEQLQASLKSVENGSIEGDVLTNDSSSVGGDMESQSAGSPAISESTSSMQALSPSNSTQEFHKSPSIEEKPQRAVPSEFANGLSPTPVNGGALDLTSSHAEKIIKEDSLGILFPFRDRGKFKNTACDICGKTFACQSALDIHYRSHTKERPFICTVCNRGFSTKGNLKQHMLTHQMRDLPSQLFEPSSNLGPNQNSAVIPANSLSSLIKTEVNGFVHVSPQDSKDTPTSHVPSGPLSSSATSPVLLPALPRRTPKQHYCNTCGKTFSSSSALQIHERTHTGEKPFACTICGRAFTTKGNLKVHMGTHMWNSTPARRGRRLSVDGPMTFLGGNPVKFPEMFQKDLAARSGSGDPSSFWNQYAAALSNGLAMKANEISVIQNGGIPPIPGSLGSGNSSPVSGLTGNLERLQNSEPNAPLAGLEKMASSENGTNFRFTRFVEDSKEIVTS\n ",
"role": "user"
},
{
"content": "Transcriptional repressor involved in organogenesis. Plays an essential role in ureteric bud invasion during kidney development.\nSubcellular locations: Nucleus\nHighest levels in kidney. Lower levels in adult brain (enriched in corpus callosum, lower expression in substantia nigra) and liver.",
"role": "assistant"
}
] |
NETR_MACMU
|
Macaca mulatta
|
MTLARFVLALVLGALPEVVGFDSVLNDSFHHRHRHSPPPGPQYPYYLPTHQRPPRTRPPPPLPRFPRPPRALPAQRPHALQAGHTPRPHPWGCPAGELWVSVTDFGAPCLRWAEVPPFLERSPPANWAQLRGQRHNFCRSPDGTGRPWCFYGDARGKVDWGYCDCRHGSVRLRGGKNEFEGTVEVYASGAWGTVCSSHWDDSDASVICHQLQLGGKGIAKQTPFSGLGLIPIYWSNVRCRGDEENILLCEKDIWQGGVCPQKMAAAVTCSFSRGPAFPIIRLVGGSSVHEGRVELYHAGQWGTICDDQWDDADAEVICRQLGLSGIAKAWHQAYFGEGSGPVMLDEVRCTGNELSIEQCPKSSWGEHNCGHKEDAGVSCTPLTDGVIRLAGGKGSHEGRLEVYYRGQWGTVCDDGWTELNTYVVCRQLGFKYGKQASANHFEESTGPIWLDDVSCSGKETRFLQCSRRQWGQHDCSHHEDVSIACYPGSEGHRLSLGFPVRLMDGENKKEGRVEVFINGQWGTICDDGWTDKDAAVICRQLGYKGPARARTMAYFGEGKGPIHVDNVKCTGNERSLADCIKQDIGRHNCRHSEDAGVICDYFGKKASGNSNKESLSSVCGLRLLHRRQKRIIGGKNSLRGGWPWQVSLRLKSSHGDGRLLCGATLLSSCWVLTAAHCFKRYGNSTRNYAVRVGDYHTLVPEEFEEEIGVQQIVIHREYRPDSSDYDIALVRLQGPEEQCARFSSHVLPACLPFWRERPQKTASNCYITGWGDTGRAYSRTLQQAAIPLLPKRFCEERYKGRFTGRMLCAGNLHEHKRVDSCQGDSGGPLMCERPGESWAVYGVTSWGYGCGVKDSPGVYTKVSAFVPWIKSVTKL
|
Plays a role in neuronal plasticity and the proteolytic action may subserve structural reorganizations associated with learning and memory operations.
Subcellular locations: Secreted
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NETR_MACMU\n - species: Macaca mulatta\n - sequence: MTLARFVLALVLGALPEVVGFDSVLNDSFHHRHRHSPPPGPQYPYYLPTHQRPPRTRPPPPLPRFPRPPRALPAQRPHALQAGHTPRPHPWGCPAGELWVSVTDFGAPCLRWAEVPPFLERSPPANWAQLRGQRHNFCRSPDGTGRPWCFYGDARGKVDWGYCDCRHGSVRLRGGKNEFEGTVEVYASGAWGTVCSSHWDDSDASVICHQLQLGGKGIAKQTPFSGLGLIPIYWSNVRCRGDEENILLCEKDIWQGGVCPQKMAAAVTCSFSRGPAFPIIRLVGGSSVHEGRVELYHAGQWGTICDDQWDDADAEVICRQLGLSGIAKAWHQAYFGEGSGPVMLDEVRCTGNELSIEQCPKSSWGEHNCGHKEDAGVSCTPLTDGVIRLAGGKGSHEGRLEVYYRGQWGTVCDDGWTELNTYVVCRQLGFKYGKQASANHFEESTGPIWLDDVSCSGKETRFLQCSRRQWGQHDCSHHEDVSIACYPGSEGHRLSLGFPVRLMDGENKKEGRVEVFINGQWGTICDDGWTDKDAAVICRQLGYKGPARARTMAYFGEGKGPIHVDNVKCTGNERSLADCIKQDIGRHNCRHSEDAGVICDYFGKKASGNSNKESLSSVCGLRLLHRRQKRIIGGKNSLRGGWPWQVSLRLKSSHGDGRLLCGATLLSSCWVLTAAHCFKRYGNSTRNYAVRVGDYHTLVPEEFEEEIGVQQIVIHREYRPDSSDYDIALVRLQGPEEQCARFSSHVLPACLPFWRERPQKTASNCYITGWGDTGRAYSRTLQQAAIPLLPKRFCEERYKGRFTGRMLCAGNLHEHKRVDSCQGDSGGPLMCERPGESWAVYGVTSWGYGCGVKDSPGVYTKVSAFVPWIKSVTKL\n ",
"role": "user"
},
{
"content": "Plays a role in neuronal plasticity and the proteolytic action may subserve structural reorganizations associated with learning and memory operations.\nSubcellular locations: Secreted",
"role": "assistant"
}
] |
ORAI2_HUMAN
|
Homo sapiens
|
MSAELNVPIDPSAPACPEPGHKGMDYRDWVRRSYLELVTSNHHSVQALSWRKLYLSRAKLKASSRTSALLSGFAMVAMVEVQLETQYQYPRPLLIAFSACTTVLVAVHLFALLISTCILPNVEAVSNIHNLNSISESPHERMHPYIELAWGFSTVLGILLFLAEVVLLCWIKFLPVDARRQPGPPPGPGSHTGWQAALVSTIIMVPVGLIFVVFTIHFYRSLVRHKTERHNREIEELHKLKVQLDGHERSLQVL
|
Ca(2+) release-activated Ca(2+)-like (CRAC-like) channel subunit which mediates Ca(2+) influx and increase in Ca(2+)-selective current by synergy with the Ca(2+) sensor, STIM1.
Subcellular locations: Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ORAI2_HUMAN\n - species: Homo sapiens\n - sequence: MSAELNVPIDPSAPACPEPGHKGMDYRDWVRRSYLELVTSNHHSVQALSWRKLYLSRAKLKASSRTSALLSGFAMVAMVEVQLETQYQYPRPLLIAFSACTTVLVAVHLFALLISTCILPNVEAVSNIHNLNSISESPHERMHPYIELAWGFSTVLGILLFLAEVVLLCWIKFLPVDARRQPGPPPGPGSHTGWQAALVSTIIMVPVGLIFVVFTIHFYRSLVRHKTERHNREIEELHKLKVQLDGHERSLQVL\n ",
"role": "user"
},
{
"content": "Ca(2+) release-activated Ca(2+)-like (CRAC-like) channel subunit which mediates Ca(2+) influx and increase in Ca(2+)-selective current by synergy with the Ca(2+) sensor, STIM1.\nSubcellular locations: Membrane",
"role": "assistant"
}
] |
HBE_CEBOL
|
Cebus olivaceus
|
MVHFTAEEKVAITSLWSKMNVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMDNLKTTFAKLSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH
|
The epsilon chain is a beta-type chain of early mammalian embryonic hemoglobin.
Red blood cells.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HBE_CEBOL\n - species: Cebus olivaceus\n - sequence: MVHFTAEEKVAITSLWSKMNVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMDNLKTTFAKLSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH\n ",
"role": "user"
},
{
"content": "The epsilon chain is a beta-type chain of early mammalian embryonic hemoglobin.\nRed blood cells.",
"role": "assistant"
}
] |
HBA_ATEGE
|
Ateles geoffroyi
|
MVLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHFDLSHGSAQVKGHGKKVADALTNAVAHVDDMPNALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR
|
Involved in oxygen transport from the lung to the various peripheral tissues.
Hemopressin acts as an antagonist peptide of the cannabinoid receptor CNR1. Hemopressin-binding efficiently blocks cannabinoid receptor CNR1 and subsequent signaling.
Red blood cells.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HBA_ATEGE\n - species: Ateles geoffroyi\n - sequence: MVLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHFDLSHGSAQVKGHGKKVADALTNAVAHVDDMPNALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR\n ",
"role": "user"
},
{
"content": "Involved in oxygen transport from the lung to the various peripheral tissues.\nHemopressin acts as an antagonist peptide of the cannabinoid receptor CNR1. Hemopressin-binding efficiently blocks cannabinoid receptor CNR1 and subsequent signaling.\nRed blood cells.",
"role": "assistant"
}
] |
RM12_HUMAN
|
Homo sapiens
|
MLPAAARPLWGPCLGLRAAAFRLARRQVPCVCAVRHMRSSGHQRCEALAGAPLDNAPKEYPPKIQQLVQDIASLTLLEISDLNELLKKTLKIQDVGLVPMGGVMSGAVPAAAAQEAVEEDIPIAKERTHFTVRLTEAKPVDKVKLIKEIKNYIQGINLVQAKKLVESLPQEIKANVAKAEAEKIKAALEAVGGTVVLE
|
As a component of the mitochondrial large ribosomal subunit, it plays a role in mitochondrial translation . Associates with mitochondrial RNA polymerase to activate transcription.
Subcellular locations: Mitochondrion matrix
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: RM12_HUMAN\n - species: Homo sapiens\n - sequence: MLPAAARPLWGPCLGLRAAAFRLARRQVPCVCAVRHMRSSGHQRCEALAGAPLDNAPKEYPPKIQQLVQDIASLTLLEISDLNELLKKTLKIQDVGLVPMGGVMSGAVPAAAAQEAVEEDIPIAKERTHFTVRLTEAKPVDKVKLIKEIKNYIQGINLVQAKKLVESLPQEIKANVAKAEAEKIKAALEAVGGTVVLE\n ",
"role": "user"
},
{
"content": "As a component of the mitochondrial large ribosomal subunit, it plays a role in mitochondrial translation . Associates with mitochondrial RNA polymerase to activate transcription.\nSubcellular locations: Mitochondrion matrix",
"role": "assistant"
}
] |
TRIM9_HUMAN
|
Homo sapiens
|
MEEMEEELKCPVCGSFYREPIILPCSHNLCQACARNILVQTPESESPQSHRAAGSGVSDYDYLDLDKMSLYSEADSGYGSYGGFASAPTTPCQKSPNGVRVFPPAMPPPATHLSPALAPVPRNSCITCPQCHRSLILDDRGLRGFPKNRVLEGVIDRYQQSKAAALKCQLCEKAPKEATVMCEQCDVFYCDPCRLRCHPPRGPLAKHRLVPPAQGRVSRRLSPRKVSTCTDHELENHSMYCVQCKMPVCYQCLEEGKHSSHEVKALGAMWKLHKSQLSQALNGLSDRAKEAKEFLVQLRNMVQQIQENSVEFEACLVAQCDALIDALNRRKAQLLARVNKEHEHKLKVVRDQISHCTVKLRQTTGLMEYCLEVIKENDPSGFLQISDALIRRVHLTEDQWGKGTLTPRMTTDFDLSLDNSPLLQSIHQLDFVQVKASSPVPATPILQLEECCTHNNSATLSWKQPPLSTVPADGYILELDDGNGGQFREVYVGKETMCTVDGLHFNSTYNARVKAFNKTGVSPYSKTLVLQTSEVAWFAFDPGSAHSDIILSNDNLTVTCSSYDDRVVLGKTGFSKGIHYWELTVDRYDNHPDPAFGVARMDVMKDVMLGKDDKAWAMYVDNNRSWFMHNNSHTNRTEGGITKGATIGVLLDLNRKNLTFFINDEQQGPIAFDNVEGLFFPAVSLNRNVQVTLHTGLPVPDFYSSRASIA
|
E3 ubiquitin-protein ligase which ubiquitinates itself in cooperation with an E2 enzyme UBE2D2/UBC4 and serves as a targeting signal for proteasomal degradation. May play a role in regulation of neuronal functions and may also participate in the formation or breakdown of abnormal inclusions in neurodegenerative disorders. May act as a regulator of synaptic vesicle exocytosis by controlling the availability of SNAP25 for the SNARE complex formation.
Subcellular locations: Cytoplasm, Cell projection, Dendrite, Cytoplasmic vesicle, Secretory vesicle, Synaptic vesicle, Synapse, Cytoplasm, Cytoskeleton
Enriched at synaptic terminals where it exists in a soluble form and a synaptic vesicle-associated form. Associated with the cytoskeleton (By similarity). Found in proximal dendrites of pyramidal neurons in the cerebral cortex and hippocampus, and Purkinje cells in the cerebellum .
Brain. Highly expressed in the cerebral cortex (at protein level). Severely decreased in the affected brain areas in Parkinson disease and dementia with Lewy bodies.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TRIM9_HUMAN\n - species: Homo sapiens\n - sequence: MEEMEEELKCPVCGSFYREPIILPCSHNLCQACARNILVQTPESESPQSHRAAGSGVSDYDYLDLDKMSLYSEADSGYGSYGGFASAPTTPCQKSPNGVRVFPPAMPPPATHLSPALAPVPRNSCITCPQCHRSLILDDRGLRGFPKNRVLEGVIDRYQQSKAAALKCQLCEKAPKEATVMCEQCDVFYCDPCRLRCHPPRGPLAKHRLVPPAQGRVSRRLSPRKVSTCTDHELENHSMYCVQCKMPVCYQCLEEGKHSSHEVKALGAMWKLHKSQLSQALNGLSDRAKEAKEFLVQLRNMVQQIQENSVEFEACLVAQCDALIDALNRRKAQLLARVNKEHEHKLKVVRDQISHCTVKLRQTTGLMEYCLEVIKENDPSGFLQISDALIRRVHLTEDQWGKGTLTPRMTTDFDLSLDNSPLLQSIHQLDFVQVKASSPVPATPILQLEECCTHNNSATLSWKQPPLSTVPADGYILELDDGNGGQFREVYVGKETMCTVDGLHFNSTYNARVKAFNKTGVSPYSKTLVLQTSEVAWFAFDPGSAHSDIILSNDNLTVTCSSYDDRVVLGKTGFSKGIHYWELTVDRYDNHPDPAFGVARMDVMKDVMLGKDDKAWAMYVDNNRSWFMHNNSHTNRTEGGITKGATIGVLLDLNRKNLTFFINDEQQGPIAFDNVEGLFFPAVSLNRNVQVTLHTGLPVPDFYSSRASIA\n ",
"role": "user"
},
{
"content": "E3 ubiquitin-protein ligase which ubiquitinates itself in cooperation with an E2 enzyme UBE2D2/UBC4 and serves as a targeting signal for proteasomal degradation. May play a role in regulation of neuronal functions and may also participate in the formation or breakdown of abnormal inclusions in neurodegenerative disorders. May act as a regulator of synaptic vesicle exocytosis by controlling the availability of SNAP25 for the SNARE complex formation.\nSubcellular locations: Cytoplasm, Cell projection, Dendrite, Cytoplasmic vesicle, Secretory vesicle, Synaptic vesicle, Synapse, Cytoplasm, Cytoskeleton\nEnriched at synaptic terminals where it exists in a soluble form and a synaptic vesicle-associated form. Associated with the cytoskeleton (By similarity). Found in proximal dendrites of pyramidal neurons in the cerebral cortex and hippocampus, and Purkinje cells in the cerebellum .\nBrain. Highly expressed in the cerebral cortex (at protein level). Severely decreased in the affected brain areas in Parkinson disease and dementia with Lewy bodies.",
"role": "assistant"
}
] |
APTX_HUMAN
|
Homo sapiens
|
MSNVNLSVSDFWRVMMRVCWLVRQDSRHQRIRLPHLEAVVIGRGPETKITDKKCSRQQVQLKAECNKGYVKVKQVGVNPTSIDSVVIGKDQEVKLQPGQVLHMVNELYPYIVEFEEEAKNPGLETHRKRKRSGNSDSIERDAAQEAEAGTGLEPGSNSGQCSVPLKKGKDAPIKKESLGHWSQGLKISMQDPKMQVYKDEQVVVIKDKYPKARYHWLVLPWTSISSLKAVAREHLELLKHMHTVGEKVIVDFAGSSKLRFRLGYHAIPSMSHVHLHVISQDFDSPCLKNKKHWNSFNTEYFLESQAVIEMVQEAGRVTVRDGMPELLKLPLRCHECQQLLPSIPQLKEHLRKHWTQ
|
DNA-binding protein involved in single-strand DNA break repair, double-strand DNA break repair and base excision repair ( ). Resolves abortive DNA ligation intermediates formed either at base excision sites, or when DNA ligases attempt to repair non-ligatable breaks induced by reactive oxygen species (, ). Catalyzes the release of adenylate groups covalently linked to 5'-phosphate termini, resulting in the production of 5'-phosphate termini that can be efficiently rejoined ( ). Also able to hydrolyze adenosine 5'-monophosphoramidate (AMP-NH(2)) and diadenosine tetraphosphate (AppppA), but with lower catalytic activity . Likewise, catalyzes the release of 3'-linked guanosine (DNAppG) and inosine (DNAppI) from DNA, but has higher specific activity with 5'-linked adenosine (AppDNA) (By similarity).
Subcellular locations: Nucleus, Nucleoplasm, Nucleus, Nucleolus
Upon genotoxic stress, colocalizes with XRCC1 at sites of DNA damage . Colocalizes with MDC1 at sites of DNA double-strand breaks . Interaction with NCL is required for nucleolar localization .
Subcellular locations: Cytoplasm
Widely expressed; detected in liver, kidney and lymph node (at protein level) . Isoform 1 is highly expressed in the cerebral cortex and cerebellum, compared to isoform 2 (at protein level) . Widely expressed; detected throughout the brain, in liver, kidney, skeletal muscle, fibroblasts, lymphocytes and pancreas ( ).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: APTX_HUMAN\n - species: Homo sapiens\n - sequence: MSNVNLSVSDFWRVMMRVCWLVRQDSRHQRIRLPHLEAVVIGRGPETKITDKKCSRQQVQLKAECNKGYVKVKQVGVNPTSIDSVVIGKDQEVKLQPGQVLHMVNELYPYIVEFEEEAKNPGLETHRKRKRSGNSDSIERDAAQEAEAGTGLEPGSNSGQCSVPLKKGKDAPIKKESLGHWSQGLKISMQDPKMQVYKDEQVVVIKDKYPKARYHWLVLPWTSISSLKAVAREHLELLKHMHTVGEKVIVDFAGSSKLRFRLGYHAIPSMSHVHLHVISQDFDSPCLKNKKHWNSFNTEYFLESQAVIEMVQEAGRVTVRDGMPELLKLPLRCHECQQLLPSIPQLKEHLRKHWTQ\n ",
"role": "user"
},
{
"content": "DNA-binding protein involved in single-strand DNA break repair, double-strand DNA break repair and base excision repair ( ). Resolves abortive DNA ligation intermediates formed either at base excision sites, or when DNA ligases attempt to repair non-ligatable breaks induced by reactive oxygen species (, ). Catalyzes the release of adenylate groups covalently linked to 5'-phosphate termini, resulting in the production of 5'-phosphate termini that can be efficiently rejoined ( ). Also able to hydrolyze adenosine 5'-monophosphoramidate (AMP-NH(2)) and diadenosine tetraphosphate (AppppA), but with lower catalytic activity . Likewise, catalyzes the release of 3'-linked guanosine (DNAppG) and inosine (DNAppI) from DNA, but has higher specific activity with 5'-linked adenosine (AppDNA) (By similarity).\nSubcellular locations: Nucleus, Nucleoplasm, Nucleus, Nucleolus\nUpon genotoxic stress, colocalizes with XRCC1 at sites of DNA damage . Colocalizes with MDC1 at sites of DNA double-strand breaks . Interaction with NCL is required for nucleolar localization .\nSubcellular locations: Cytoplasm\nWidely expressed; detected in liver, kidney and lymph node (at protein level) . Isoform 1 is highly expressed in the cerebral cortex and cerebellum, compared to isoform 2 (at protein level) . Widely expressed; detected throughout the brain, in liver, kidney, skeletal muscle, fibroblasts, lymphocytes and pancreas ( ).",
"role": "assistant"
}
] |
OR1E3_HUMAN
|
Homo sapiens
|
MMKKNQTMISEFLLLGLPIQPEQQNLFYALFLAVYLTTLLGNLLVIVLIRLDSHLHMPMYLCLSNLSFSDLCFSSVTMPKLLQNMQSQNPSIPFADCLAQMYFHLFYGVLESFLLVVMAYHCYVAICFPLHYTTIMSPKCCLGLLTLSWLLTTAHATLHTLLMARLSFCAENVIPHFFCDTSTLLKLACSNTQVNGWVMFFMGGLILVIPFLLLIMSCARIVSTILRVPSTGGIQKAFSTCGPHLSVVSLFYGTIIGLYLCPLTNHNTVKDTVMAVMYTGVTHMLNPFIYSLRNRDMRGNPGQSLQHKENFFVFKIVIVGILPLLNLVGVVKLIMKYHSKSVA
|
Odorant receptor.
Subcellular locations: Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: OR1E3_HUMAN\n - species: Homo sapiens\n - sequence: MMKKNQTMISEFLLLGLPIQPEQQNLFYALFLAVYLTTLLGNLLVIVLIRLDSHLHMPMYLCLSNLSFSDLCFSSVTMPKLLQNMQSQNPSIPFADCLAQMYFHLFYGVLESFLLVVMAYHCYVAICFPLHYTTIMSPKCCLGLLTLSWLLTTAHATLHTLLMARLSFCAENVIPHFFCDTSTLLKLACSNTQVNGWVMFFMGGLILVIPFLLLIMSCARIVSTILRVPSTGGIQKAFSTCGPHLSVVSLFYGTIIGLYLCPLTNHNTVKDTVMAVMYTGVTHMLNPFIYSLRNRDMRGNPGQSLQHKENFFVFKIVIVGILPLLNLVGVVKLIMKYHSKSVA\n ",
"role": "user"
},
{
"content": "Odorant receptor.\nSubcellular locations: Cell membrane",
"role": "assistant"
}
] |
MORN3_MACFA
|
Macaca fascicularis
|
MPVSKCPKKSESLWKGWDRKAQKNGLRRQVYAVNGDYYVGEWKDNVKHGKGTQVWKKNGAIYEGDWKFGKRDGYGTLSLPDQQTGKCRRVYSGWWKGDKKSGYGIQFFGPKEYYEGEWCGSQRSGWGRMYYSNGDIYEGQWENDKPNGDGMLRLKNGNRYEGCWERGMKNGLGRFFHLDHGQLFEGFWVDNMAKCGTMIDFGRDEAPEPTQFPIPEVKILDPDGVLAQALAMFKKTEEGD
|
Assembles a suppression complex (suppresome) by tethering SIRT1 and MDM2 to regulate composite modifications of p53/TP53. Confers both deacetylation-mediated functional inactivation, by SIRT1, and ubiquitination-dependent degradation, by MDM2, of p53/TP53, promoting a proliferative and cell survival behaviors (By similarity). May play a role in the regulation of spermatogenesis (By similarity).
Subcellular locations: Cytoplasmic vesicle, Secretory vesicle, Acrosome
Localized in the acrosome in germ cells throughout spermiogenesis, it is also present in the manchette of elongating spermatids.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MORN3_MACFA\n - species: Macaca fascicularis\n - sequence: MPVSKCPKKSESLWKGWDRKAQKNGLRRQVYAVNGDYYVGEWKDNVKHGKGTQVWKKNGAIYEGDWKFGKRDGYGTLSLPDQQTGKCRRVYSGWWKGDKKSGYGIQFFGPKEYYEGEWCGSQRSGWGRMYYSNGDIYEGQWENDKPNGDGMLRLKNGNRYEGCWERGMKNGLGRFFHLDHGQLFEGFWVDNMAKCGTMIDFGRDEAPEPTQFPIPEVKILDPDGVLAQALAMFKKTEEGD\n ",
"role": "user"
},
{
"content": "Assembles a suppression complex (suppresome) by tethering SIRT1 and MDM2 to regulate composite modifications of p53/TP53. Confers both deacetylation-mediated functional inactivation, by SIRT1, and ubiquitination-dependent degradation, by MDM2, of p53/TP53, promoting a proliferative and cell survival behaviors (By similarity). May play a role in the regulation of spermatogenesis (By similarity).\nSubcellular locations: Cytoplasmic vesicle, Secretory vesicle, Acrosome\nLocalized in the acrosome in germ cells throughout spermiogenesis, it is also present in the manchette of elongating spermatids.",
"role": "assistant"
}
] |
TM225_HUMAN
|
Homo sapiens
|
MVHVSNRSIQGMNILFSSWAVVLMVMGITLDKWVELISEDERAKMNHSPWMMCCPALWPEDDLKVVRIMMTSSLGLSFLLNLILGMKFTYLIPQNKYIQLFTTILSFFSGISLLWALILYHNKLKQGQSMHFSSYRITWIMYTAYLNVFFLSVCGVLSLLECKLSTSSCTCLNIHKSDNECKESENSIEDISLPECTAMPRSIVRAHTVNSLNKKVQTRHVTWAL
|
Probably inhibits protein phosphatase 1 (PP1) in sperm via binding to catalytic subunit PPP1CC.
Subcellular locations: Cytoplasmic vesicle, Secretory vesicle, Acrosome membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TM225_HUMAN\n - species: Homo sapiens\n - sequence: MVHVSNRSIQGMNILFSSWAVVLMVMGITLDKWVELISEDERAKMNHSPWMMCCPALWPEDDLKVVRIMMTSSLGLSFLLNLILGMKFTYLIPQNKYIQLFTTILSFFSGISLLWALILYHNKLKQGQSMHFSSYRITWIMYTAYLNVFFLSVCGVLSLLECKLSTSSCTCLNIHKSDNECKESENSIEDISLPECTAMPRSIVRAHTVNSLNKKVQTRHVTWAL\n ",
"role": "user"
},
{
"content": "Probably inhibits protein phosphatase 1 (PP1) in sperm via binding to catalytic subunit PPP1CC.\nSubcellular locations: Cytoplasmic vesicle, Secretory vesicle, Acrosome membrane",
"role": "assistant"
}
] |
DTNB_HUMAN
|
Homo sapiens
|
MIEESGNKRKTMAEKRQLFIEMRAQNFDVIRLSTYRTACKLRFVQKRCNLHLVDIWNMIEAFRDNGLNTLDHTTEISVSRLETVISSIYYQLNKRLPSTHQISVEQSISLLLNFMIAAYDSEGRGKLTVFSVKAMLATMCGGKMLDKLRYVFSQMSDSNGLMIFSKFDQFLKEVLKLPTAVFEGPSFGYTEHSVRTCFPQQRKIMLNMFLDTMMADPPPQCLVWLPLMHRLAHVENVFHPVECSYCRCESMMGFRYRCQQCHNYQLCQNCFWRGHAGGPHSNQHQMKEHSSWKSPAKKLSHAISKSLGCVPTREPPHPVFPEQPEKPLDLAHIVPPRPLTNMNDTMVSHMSSGVPTPTKRLQYSQDIPSHLADEHALIASYVARLQHCARVLDSPSRLDEEHRLIARYAARLAAEAGNVTRPPTDLSFNFDANKQQRQLIAELENKNREILQEIQRLRLEHEQASQPTPEKAQQNPTLLAELRLLRQRKDELEQRMSALQESRRELMVQLEELMKLLKEEEQKQAAQATGSPHTSPTHGGGRPMPMPVRSTSAGSTPTHCPQDSLSGVGGDVQEAFAQGTRRNLRNDLLVAADSITNTMSSLVKELHSAEEGAEEEEEKMQNGKDRG
|
Scaffolding protein that assembles DMD and SNTA1 molecules to the basal membrane of kidney cells and liver sinusoids (By similarity). May function as a repressor of the SYN1 promoter through the binding of repressor element-1 (RE-1), in turn regulates SYN1 expression and may be involved in cell proliferation regulation during the early phase of neural differentiation . May be required for proper maturation and function of a subset of inhibitory synapses (By similarity).
Subcellular locations: Cytoplasm, Postsynaptic density, Cell projection, Dendrite, Basal cell membrane, Postsynapse, Nucleus
Localized at inhibitory synapses on the dendrites of cerebellar Purkinje cells.
Highly expressed in brain, kidney and pancreas.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: DTNB_HUMAN\n - species: Homo sapiens\n - sequence: MIEESGNKRKTMAEKRQLFIEMRAQNFDVIRLSTYRTACKLRFVQKRCNLHLVDIWNMIEAFRDNGLNTLDHTTEISVSRLETVISSIYYQLNKRLPSTHQISVEQSISLLLNFMIAAYDSEGRGKLTVFSVKAMLATMCGGKMLDKLRYVFSQMSDSNGLMIFSKFDQFLKEVLKLPTAVFEGPSFGYTEHSVRTCFPQQRKIMLNMFLDTMMADPPPQCLVWLPLMHRLAHVENVFHPVECSYCRCESMMGFRYRCQQCHNYQLCQNCFWRGHAGGPHSNQHQMKEHSSWKSPAKKLSHAISKSLGCVPTREPPHPVFPEQPEKPLDLAHIVPPRPLTNMNDTMVSHMSSGVPTPTKRLQYSQDIPSHLADEHALIASYVARLQHCARVLDSPSRLDEEHRLIARYAARLAAEAGNVTRPPTDLSFNFDANKQQRQLIAELENKNREILQEIQRLRLEHEQASQPTPEKAQQNPTLLAELRLLRQRKDELEQRMSALQESRRELMVQLEELMKLLKEEEQKQAAQATGSPHTSPTHGGGRPMPMPVRSTSAGSTPTHCPQDSLSGVGGDVQEAFAQGTRRNLRNDLLVAADSITNTMSSLVKELHSAEEGAEEEEEKMQNGKDRG\n ",
"role": "user"
},
{
"content": "Scaffolding protein that assembles DMD and SNTA1 molecules to the basal membrane of kidney cells and liver sinusoids (By similarity). May function as a repressor of the SYN1 promoter through the binding of repressor element-1 (RE-1), in turn regulates SYN1 expression and may be involved in cell proliferation regulation during the early phase of neural differentiation . May be required for proper maturation and function of a subset of inhibitory synapses (By similarity).\nSubcellular locations: Cytoplasm, Postsynaptic density, Cell projection, Dendrite, Basal cell membrane, Postsynapse, Nucleus\nLocalized at inhibitory synapses on the dendrites of cerebellar Purkinje cells.\nHighly expressed in brain, kidney and pancreas.",
"role": "assistant"
}
] |
NAPSA_HUMAN
|
Homo sapiens
|
MSPPPLLQPLLLLLPLLNVEPSGATLIRIPLHRVQPGRRILNLLRGWREPAELPKLGAPSPGDKPIFVPLSNYRDVQYFGEIGLGTPPQNFTVAFDTGSSNLWVPSRRCHFFSVPCWLHHRFDPKASSSFQANGTKFAIQYGTGRVDGILSEDKLTIGGIKGASVIFGEALWEPSLVFAFAHFDGILGLGFPILSVEGVRPPMDVLVEQGLLDKPVFSFYLNRDPEEPDGGELVLGGSDPAHYIPPLTFVPVTVPAYWQIHMERVKVGPGLTLCAKGCAAILDTGTSLITGPTEEIRALHAAIGGIPLLAGEYIILCSEIPKLPAVSFLLGGVWFNLTAHDYVIQTTRNGVRLCLSGFQALDVPPPAGPFWILGDVFLGTYVAVFDRGDMKSSARVGLARARTRGADLGWGETAQAQFPG
|
May be involved in processing of pneumocyte surfactant precursors.
Subcellular locations: Secreted
Expressed predominantly in adult lung (type II pneumocytes) and kidney and in fetal lung. Low levels in adult spleen and very low levels in peripheral blood leukocytes.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NAPSA_HUMAN\n - species: Homo sapiens\n - sequence: MSPPPLLQPLLLLLPLLNVEPSGATLIRIPLHRVQPGRRILNLLRGWREPAELPKLGAPSPGDKPIFVPLSNYRDVQYFGEIGLGTPPQNFTVAFDTGSSNLWVPSRRCHFFSVPCWLHHRFDPKASSSFQANGTKFAIQYGTGRVDGILSEDKLTIGGIKGASVIFGEALWEPSLVFAFAHFDGILGLGFPILSVEGVRPPMDVLVEQGLLDKPVFSFYLNRDPEEPDGGELVLGGSDPAHYIPPLTFVPVTVPAYWQIHMERVKVGPGLTLCAKGCAAILDTGTSLITGPTEEIRALHAAIGGIPLLAGEYIILCSEIPKLPAVSFLLGGVWFNLTAHDYVIQTTRNGVRLCLSGFQALDVPPPAGPFWILGDVFLGTYVAVFDRGDMKSSARVGLARARTRGADLGWGETAQAQFPG\n ",
"role": "user"
},
{
"content": "May be involved in processing of pneumocyte surfactant precursors.\nSubcellular locations: Secreted\nExpressed predominantly in adult lung (type II pneumocytes) and kidney and in fetal lung. Low levels in adult spleen and very low levels in peripheral blood leukocytes.",
"role": "assistant"
}
] |
CDHR3_HUMAN
|
Homo sapiens
|
MQEAIILLALLGAMSGGEALHLILLPATGNVAENSPPGTSVHKFSVKLSASLSPVIPGFPQIVNSNPLTEAFRVNWLSGTYFEVVTTGMEQLDFETGPNIFDLQIYVKDEVGVTDLQVLTVQVTDVNEPPQFQGNLAEGLHLYIVERANPGFIYQVEAFDPEDTSRNIPLSYFLISPPKSFRMSANGTLFSTTELDFEAGHRSFHLIVEVRDSGGLKASTELQVNIVNLNDEVPRFTSPTRVYTVLEELSPGTIVANITAEDPDDEGFPSHLLYSITTVSKYFMINQLTGTIQVAQRIDRDAGELRQNPTISLEVLVKDRPYGGQENRIQITFIVEDVNDNPATCQKFTFSIMVPERTAKGTLLLDLNKFCFDDDSEAPNNRFNFTMPSGVGSGSRFLQDPAGSGKIVLIGDLDYENPSNLAAGNKYTVIIQVQDVAPPYYKNNVYVYILTSPENEFPLIFDRPSYVFDVSERRPARTRVGQVRATDKDLPQSSLLYSISTGGASLQYPNVFWINPKTGELQLVTKVDCETTPIYILRIQATNNEDTSSVTVTVNILEENDEKPICTPNSYFLALPVDLKVGTNIQNFKLTCTDLDSSPRSFRYSIGPGNVNNHFTFSPNAGSNVTRLLLTSRFDYAGGFDKIWDYKLLVYVTDDNLMSDRKKAEALVETGTVTLSIKVIPHPTTIITTTPRPRVTYQVLRKNVYSPSAWYVPFVITLGSILLLGLLVYLVVLLAKAIHRHCPCKTGKNKEPLTKKGETKTAERDVVVETIQMNTIFDGEAIDPVTGETYEFNSKTGARKWKDPLTQMPKWKESSHQGAAPRRVTAGEGMGSLRSANWEEDELSGKAWAEDAGLGSRNEGGKLGNPKNRNPAFMNRAYPKPHPGK
|
Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types.
(Microbial infection) Acts as a receptor for human rhinovirus C.
Subcellular locations: Cell membrane
Expressed in bronchial epithelium from adults and in fetal lung tissue.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CDHR3_HUMAN\n - species: Homo sapiens\n - sequence: MQEAIILLALLGAMSGGEALHLILLPATGNVAENSPPGTSVHKFSVKLSASLSPVIPGFPQIVNSNPLTEAFRVNWLSGTYFEVVTTGMEQLDFETGPNIFDLQIYVKDEVGVTDLQVLTVQVTDVNEPPQFQGNLAEGLHLYIVERANPGFIYQVEAFDPEDTSRNIPLSYFLISPPKSFRMSANGTLFSTTELDFEAGHRSFHLIVEVRDSGGLKASTELQVNIVNLNDEVPRFTSPTRVYTVLEELSPGTIVANITAEDPDDEGFPSHLLYSITTVSKYFMINQLTGTIQVAQRIDRDAGELRQNPTISLEVLVKDRPYGGQENRIQITFIVEDVNDNPATCQKFTFSIMVPERTAKGTLLLDLNKFCFDDDSEAPNNRFNFTMPSGVGSGSRFLQDPAGSGKIVLIGDLDYENPSNLAAGNKYTVIIQVQDVAPPYYKNNVYVYILTSPENEFPLIFDRPSYVFDVSERRPARTRVGQVRATDKDLPQSSLLYSISTGGASLQYPNVFWINPKTGELQLVTKVDCETTPIYILRIQATNNEDTSSVTVTVNILEENDEKPICTPNSYFLALPVDLKVGTNIQNFKLTCTDLDSSPRSFRYSIGPGNVNNHFTFSPNAGSNVTRLLLTSRFDYAGGFDKIWDYKLLVYVTDDNLMSDRKKAEALVETGTVTLSIKVIPHPTTIITTTPRPRVTYQVLRKNVYSPSAWYVPFVITLGSILLLGLLVYLVVLLAKAIHRHCPCKTGKNKEPLTKKGETKTAERDVVVETIQMNTIFDGEAIDPVTGETYEFNSKTGARKWKDPLTQMPKWKESSHQGAAPRRVTAGEGMGSLRSANWEEDELSGKAWAEDAGLGSRNEGGKLGNPKNRNPAFMNRAYPKPHPGK\n ",
"role": "user"
},
{
"content": "Cadherins are calcium-dependent cell adhesion proteins. They preferentially interact with themselves in a homophilic manner in connecting cells; cadherins may thus contribute to the sorting of heterogeneous cell types.\n(Microbial infection) Acts as a receptor for human rhinovirus C.\nSubcellular locations: Cell membrane\nExpressed in bronchial epithelium from adults and in fetal lung tissue.",
"role": "assistant"
}
] |
CNTN6_HUMAN
|
Homo sapiens
|
MRLLWKLVILLPLINSSAGDGLLSRPIFTQEPHDVIFPLDLSKSEVILNCAANGYPSPHYRWKQNGTDIDFTMSYHYRLDGGSLAINSPHTDQDIGMYQCLATNLLGTILSRKAKLQFAYIEDFETKTRSTVSVREGQGVVLLCGPPPHFGDLSYAWTFNDNPLYVQEDNRRFVSQETGNLYIAKVEPSDVGNYTCFITNKEAQRSVQGPPTPLVQRTDGVMGEYEPKIEVRFPETIQAAKDSSVKLECFALGNPVPDISWRRLDGSPLPGKVKYSKSQAILEIPNFQQEDEGFYECIASNLRGRNLAKGQLIFYAPPEWEQKIQNTHLSIYDNLLWECKASGKPNPWYTWLKNGERLNPEERIQIENGTLIITMLNVSDSGVYQCAAENKYQIIYANAELRVLASAPDFSKSPVKKKSFVQVGGDIVIGCKPNAFPRAAISWKRGTETLRQSKRIFLLEDGSLKIYNITRSDAGSYTCIATNQFGTAKNTGSLIVKERTVITVPPSKMDVTVGESIVLPCQVSHDPSIEVVFVWFFNGDVIDLKKGVAHFERIGGESVGDLMIRNIQLHHSGKYLCTVQTTLESLSAVADIIVRGPPGPPEDVQVEDISSTTSQLSWRAGPDNNSPIQIFTIQTRTPFSVGWQAVATVPEILNGKTYNATVVGLSPWVEYEFRVVAGNSIGIGEPSEPSELLRTKASVPVVAPVNIHGGGGSRSELVITWESIPEELQNGEGFGYIIMFRPVGSTTWSKEKVSSVESSRFVYRNESIIPLSPFEVKVGVYNNEGEGSLSTVTIVYSGEDEPQLAPRGTSLQSFSASEMEVSWNAIAWNRNTGRVLGYEVLYWTDDSKESMIGKIRVSGNVTTKNITGLKANTIYFASVRAYNTAGTGPSSPPVNVTTKKSPPSQPPANIAWKLTNSKLCLNWEHVKTMENESEVLGYKILYRQNRQSKTHILETNNTSAELLVPFEEDYLIEIRTVSDGGDGSSSEEIRIPKMSSLSSRGIQFLEPSTHFLSIVIVIFHCFAIQPLI
|
Contactins mediate cell surface interactions during nervous system development. Participates in oligodendrocytes generation by acting as a ligand of NOTCH1. Its association with NOTCH1 promotes NOTCH1 activation through the released notch intracellular domain (NICD) and subsequent translocation to the nucleus. Involved in motor coordination (By similarity).
Subcellular locations: Cell membrane
Expressed in nervous system. Highly expressed in cerebellum. Expressed at intermediate level in thalamus, subthalamic nucleus. Weakly expressed in corpus callosum, caudate nucleus and spinal cord.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CNTN6_HUMAN\n - species: Homo sapiens\n - sequence: MRLLWKLVILLPLINSSAGDGLLSRPIFTQEPHDVIFPLDLSKSEVILNCAANGYPSPHYRWKQNGTDIDFTMSYHYRLDGGSLAINSPHTDQDIGMYQCLATNLLGTILSRKAKLQFAYIEDFETKTRSTVSVREGQGVVLLCGPPPHFGDLSYAWTFNDNPLYVQEDNRRFVSQETGNLYIAKVEPSDVGNYTCFITNKEAQRSVQGPPTPLVQRTDGVMGEYEPKIEVRFPETIQAAKDSSVKLECFALGNPVPDISWRRLDGSPLPGKVKYSKSQAILEIPNFQQEDEGFYECIASNLRGRNLAKGQLIFYAPPEWEQKIQNTHLSIYDNLLWECKASGKPNPWYTWLKNGERLNPEERIQIENGTLIITMLNVSDSGVYQCAAENKYQIIYANAELRVLASAPDFSKSPVKKKSFVQVGGDIVIGCKPNAFPRAAISWKRGTETLRQSKRIFLLEDGSLKIYNITRSDAGSYTCIATNQFGTAKNTGSLIVKERTVITVPPSKMDVTVGESIVLPCQVSHDPSIEVVFVWFFNGDVIDLKKGVAHFERIGGESVGDLMIRNIQLHHSGKYLCTVQTTLESLSAVADIIVRGPPGPPEDVQVEDISSTTSQLSWRAGPDNNSPIQIFTIQTRTPFSVGWQAVATVPEILNGKTYNATVVGLSPWVEYEFRVVAGNSIGIGEPSEPSELLRTKASVPVVAPVNIHGGGGSRSELVITWESIPEELQNGEGFGYIIMFRPVGSTTWSKEKVSSVESSRFVYRNESIIPLSPFEVKVGVYNNEGEGSLSTVTIVYSGEDEPQLAPRGTSLQSFSASEMEVSWNAIAWNRNTGRVLGYEVLYWTDDSKESMIGKIRVSGNVTTKNITGLKANTIYFASVRAYNTAGTGPSSPPVNVTTKKSPPSQPPANIAWKLTNSKLCLNWEHVKTMENESEVLGYKILYRQNRQSKTHILETNNTSAELLVPFEEDYLIEIRTVSDGGDGSSSEEIRIPKMSSLSSRGIQFLEPSTHFLSIVIVIFHCFAIQPLI\n ",
"role": "user"
},
{
"content": "Contactins mediate cell surface interactions during nervous system development. Participates in oligodendrocytes generation by acting as a ligand of NOTCH1. Its association with NOTCH1 promotes NOTCH1 activation through the released notch intracellular domain (NICD) and subsequent translocation to the nucleus. Involved in motor coordination (By similarity).\nSubcellular locations: Cell membrane\nExpressed in nervous system. Highly expressed in cerebellum. Expressed at intermediate level in thalamus, subthalamic nucleus. Weakly expressed in corpus callosum, caudate nucleus and spinal cord.",
"role": "assistant"
}
] |
HEXI1_HUMAN
|
Homo sapiens
|
MAEPFLSEYQHQPQTSNCTGAAAVQEELNPERPPGAEERVPEEDSRWQSRAFPQLGGRPGPEGEGSLESQPPPLQTQACPESSCLREGEKGQNGDDSSAGGDFPPPAEVEPTPEAELLAQPCHDSEASKLGAPAAGGEEEWGQQQRQLGKKKHRRRPSKKKRHWKPYYKLTWEEKKKFDEKQSLRASRIRAEMFAKGQPVAPYNTTQFLMDDHDQEEPDLKTGLYSKRAAAKSDDTSDDDFMEEGGEEDGGSDGMGGDGSEFLQRDFSETYERYHTESLQNMSKQELIKEYLELEKCLSRMEDENNRLRLESKRLGGDDARVRELELELDRLRAENLQLLTENELHRQQERAPLSKFGD
|
Transcriptional regulator which functions as a general RNA polymerase II transcription inhibitor ( ). Core component of the 7SK RNP complex: in cooperation with 7SK snRNA sequesters P-TEFb in a large inactive 7SK snRNP complex preventing RNA polymerase II phosphorylation and subsequent transcriptional elongation ( , ). May also regulate NF-kappa-B, ESR1, NR3C1 and CIITA-dependent transcriptional activity ( ). Plays a role in the regulation of DNA virus-mediated innate immune response by assembling into the HDP-RNP complex, a complex that serves as a platform for IRF3 phosphorylation and subsequent innate immune response activation through the cGAS-STING pathway .
Subcellular locations: Nucleus, Cytoplasm
Binds alpha-importin and is mostly nuclear .
Ubiquitously expressed with higher expression in placenta. HEXIM1 and HEXIM2 are differentially expressed. Expressed in endocrine tissues.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HEXI1_HUMAN\n - species: Homo sapiens\n - sequence: MAEPFLSEYQHQPQTSNCTGAAAVQEELNPERPPGAEERVPEEDSRWQSRAFPQLGGRPGPEGEGSLESQPPPLQTQACPESSCLREGEKGQNGDDSSAGGDFPPPAEVEPTPEAELLAQPCHDSEASKLGAPAAGGEEEWGQQQRQLGKKKHRRRPSKKKRHWKPYYKLTWEEKKKFDEKQSLRASRIRAEMFAKGQPVAPYNTTQFLMDDHDQEEPDLKTGLYSKRAAAKSDDTSDDDFMEEGGEEDGGSDGMGGDGSEFLQRDFSETYERYHTESLQNMSKQELIKEYLELEKCLSRMEDENNRLRLESKRLGGDDARVRELELELDRLRAENLQLLTENELHRQQERAPLSKFGD\n ",
"role": "user"
},
{
"content": "Transcriptional regulator which functions as a general RNA polymerase II transcription inhibitor ( ). Core component of the 7SK RNP complex: in cooperation with 7SK snRNA sequesters P-TEFb in a large inactive 7SK snRNP complex preventing RNA polymerase II phosphorylation and subsequent transcriptional elongation ( , ). May also regulate NF-kappa-B, ESR1, NR3C1 and CIITA-dependent transcriptional activity ( ). Plays a role in the regulation of DNA virus-mediated innate immune response by assembling into the HDP-RNP complex, a complex that serves as a platform for IRF3 phosphorylation and subsequent innate immune response activation through the cGAS-STING pathway .\nSubcellular locations: Nucleus, Cytoplasm\nBinds alpha-importin and is mostly nuclear .\nUbiquitously expressed with higher expression in placenta. HEXIM1 and HEXIM2 are differentially expressed. Expressed in endocrine tissues.",
"role": "assistant"
}
] |
ADA28_HUMAN
|
Homo sapiens
|
MLQGLLPVSLLLSVAVSAIKELPGVKKYEVVYPIRLHPLHKREAKEPEQQEQFETELKYKMTINGKIAVLYLKKNKNLLAPGYTETYYNSTGKEITTSPQIMDDCYYQGHILNEKVSDASISTCRGLRGYFSQGDQRYFIEPLSPIHRDGQEHALFKYNPDEKNYDSTCGMDGVLWAHDLQQNIALPATKLVKLKDRKVQEHEKYIEYYLVLDNGEFKRYNENQDEIRKRVFEMANYVNMLYKKLNTHVALVGMEIWTDKDKIKITPNASFTLENFSKWRGSVLSRRKRHDIAQLITATELAGTTVGLAFMSTMCSPYSVGVVQDHSDNLLRVAGTMAHEMGHNFGMFHDDYSCKCPSTICVMDKALSFYIPTDFSSCSRLSYDKFFEDKLSNCLFNAPLPTDIISTPICGNQLVEMGEDCDCGTSEECTNICCDAKTCKIKATFQCALGECCEKCQFKKAGMVCRPAKDECDLPEMCNGKSGNCPDDRFQVNGFPCHHGKGHCLMGTCPTLQEQCTELWGPGTEVADKSCYNRNEGGSKYGYCRRVDDTLIPCKANDTMCGKLFCQGGSDNLPWKGRIVTFLTCKTFDPEDTSQEIGMVANGTKCGDNKVCINAECVDIEKAYKSTNCSSKCKGHAVCDHELQCQCEEGWIPPDCDDSSVVFHFSIVVGVLFPMAVIFVVVAMVIRHQSSREKQKKDQRPLSTTGTRPHKQKRKPQMVKAVQPQEMSQMKPHVYDLPVEGNEPPASFHKDTNALPPTVFKDNPVSTPKDSNPKA
|
May play a role in the adhesive and proteolytic events that occur during lymphocyte emigration or may function in ectodomain shedding of lymphocyte surface target proteins, such as FASL and CD40L. May be involved in sperm maturation.
Subcellular locations: Cell membrane
Subcellular locations: Secreted
Expressed predominantly in secondary lymphoid tissues, such as lymph node, spleen, small intestine, stomach, colon, appendix and trachea. The lymphocyte population is responsible for expression of this protein in these tissues. Isoform 2 is expressed preferentially in spleen.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ADA28_HUMAN\n - species: Homo sapiens\n - sequence: MLQGLLPVSLLLSVAVSAIKELPGVKKYEVVYPIRLHPLHKREAKEPEQQEQFETELKYKMTINGKIAVLYLKKNKNLLAPGYTETYYNSTGKEITTSPQIMDDCYYQGHILNEKVSDASISTCRGLRGYFSQGDQRYFIEPLSPIHRDGQEHALFKYNPDEKNYDSTCGMDGVLWAHDLQQNIALPATKLVKLKDRKVQEHEKYIEYYLVLDNGEFKRYNENQDEIRKRVFEMANYVNMLYKKLNTHVALVGMEIWTDKDKIKITPNASFTLENFSKWRGSVLSRRKRHDIAQLITATELAGTTVGLAFMSTMCSPYSVGVVQDHSDNLLRVAGTMAHEMGHNFGMFHDDYSCKCPSTICVMDKALSFYIPTDFSSCSRLSYDKFFEDKLSNCLFNAPLPTDIISTPICGNQLVEMGEDCDCGTSEECTNICCDAKTCKIKATFQCALGECCEKCQFKKAGMVCRPAKDECDLPEMCNGKSGNCPDDRFQVNGFPCHHGKGHCLMGTCPTLQEQCTELWGPGTEVADKSCYNRNEGGSKYGYCRRVDDTLIPCKANDTMCGKLFCQGGSDNLPWKGRIVTFLTCKTFDPEDTSQEIGMVANGTKCGDNKVCINAECVDIEKAYKSTNCSSKCKGHAVCDHELQCQCEEGWIPPDCDDSSVVFHFSIVVGVLFPMAVIFVVVAMVIRHQSSREKQKKDQRPLSTTGTRPHKQKRKPQMVKAVQPQEMSQMKPHVYDLPVEGNEPPASFHKDTNALPPTVFKDNPVSTPKDSNPKA\n ",
"role": "user"
},
{
"content": "May play a role in the adhesive and proteolytic events that occur during lymphocyte emigration or may function in ectodomain shedding of lymphocyte surface target proteins, such as FASL and CD40L. May be involved in sperm maturation.\nSubcellular locations: Cell membrane\nSubcellular locations: Secreted\nExpressed predominantly in secondary lymphoid tissues, such as lymph node, spleen, small intestine, stomach, colon, appendix and trachea. The lymphocyte population is responsible for expression of this protein in these tissues. Isoform 2 is expressed preferentially in spleen.",
"role": "assistant"
}
] |
HPT_PONAB
|
Pongo abelii
|
MSALGAVIALLLWGQLFAVDSGNDVMDISDDGCPKPPQIAHGYVEHSVRYQCKNYYRLRTEGDGVYTLNSEKQWINKAVGDKLPECEAVCGKPKNPANPVQRILGGHLDAKGSFPWQAKMVSRHNLTTGATLINEQWLLTTAKNLFLNHSENATAKDIAPTLTLYVGKKQLVEIEKVVLHPNYSQVDIGLIKLKQKVPVNERVMPICLPSKDYAEVGRVGYVSGWGRNANFKFTEHLKYVMLPVADQDQCVRHYEGSTVPEKKTPKSPVGVQPILNEHTFCAGMSKYQEDTCYGDAGSAFAVHDLEEDTWYAAGILSFDKSCAVAEYGVYVKVTSIQDWVQKTIAKN
|
As a result of hemolysis, hemoglobin is found to accumulate in the kidney and is secreted in the urine. Haptoglobin captures, and combines with free plasma hemoglobin to allow hepatic recycling of heme iron and to prevent kidney damage. Haptoglobin also acts as an antioxidant, has antibacterial activity and plays a role in modulating many aspects of the acute phase response. Hemoglobin/haptoglobin complexes are rapidly cleared by the macrophage CD163 scavenger receptor expressed on the surface of liver Kupfer cells through an endocytic lysosomal degradation pathway (By similarity).
Subcellular locations: Secreted
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HPT_PONAB\n - species: Pongo abelii\n - sequence: MSALGAVIALLLWGQLFAVDSGNDVMDISDDGCPKPPQIAHGYVEHSVRYQCKNYYRLRTEGDGVYTLNSEKQWINKAVGDKLPECEAVCGKPKNPANPVQRILGGHLDAKGSFPWQAKMVSRHNLTTGATLINEQWLLTTAKNLFLNHSENATAKDIAPTLTLYVGKKQLVEIEKVVLHPNYSQVDIGLIKLKQKVPVNERVMPICLPSKDYAEVGRVGYVSGWGRNANFKFTEHLKYVMLPVADQDQCVRHYEGSTVPEKKTPKSPVGVQPILNEHTFCAGMSKYQEDTCYGDAGSAFAVHDLEEDTWYAAGILSFDKSCAVAEYGVYVKVTSIQDWVQKTIAKN\n ",
"role": "user"
},
{
"content": "As a result of hemolysis, hemoglobin is found to accumulate in the kidney and is secreted in the urine. Haptoglobin captures, and combines with free plasma hemoglobin to allow hepatic recycling of heme iron and to prevent kidney damage. Haptoglobin also acts as an antioxidant, has antibacterial activity and plays a role in modulating many aspects of the acute phase response. Hemoglobin/haptoglobin complexes are rapidly cleared by the macrophage CD163 scavenger receptor expressed on the surface of liver Kupfer cells through an endocytic lysosomal degradation pathway (By similarity).\nSubcellular locations: Secreted",
"role": "assistant"
}
] |
WT1_HUMAN
|
Homo sapiens
|
MGSDVRDLNALLPAVPSLGGGGGCALPVSGAAQWAPVLDFAPPGASAYGSLGGPAPPPAPPPPPPPPPHSFIKQEPSWGGAEPHEEQCLSAFTVHFSGQFTGTAGACRYGPFGPPPPSQASSGQARMFPNAPYLPSCLESQPAIRNQGYSTVTFDGTPSYGHTPSHHAAQFPNHSFKHEDPMGQQGSLGEQQYSVPPPVYGCHTPTDSCTGSQALLLRTPYSSDNLYQMTSQLECMTWNQMNLGATLKGVAAGSSSSVKWTEGQSNHSTGYESDNHTTPILCGAQYRIHTHGVFRGIQDVRRVPGVAPTLVRSASETSEKRPFMCAYPGCNKRYFKLSHLQMHSRKHTGEKPYQCDFKDCERRFSRSDQLKRHQRRHTGVKPFQCKTCQRKFSRSDHLKTHTRTHTGKTSEKPFSCRWPSCQKKFARSDELVRHHNMHQRNMTKLQLAL
|
Transcription factor that plays an important role in cellular development and cell survival . Recognizes and binds to the DNA sequence 5'-GCG(T/G)GGGCG-3' ( ). Regulates the expression of numerous target genes, including EPO. Plays an essential role for development of the urogenital system. It has a tumor suppressor as well as an oncogenic role in tumor formation. Function may be isoform-specific: isoforms lacking the KTS motif may act as transcription factors . Isoforms containing the KTS motif may bind mRNA and play a role in mRNA metabolism or splicing . Isoform 1 has lower affinity for DNA, and can bind RNA .
Subcellular locations: Nucleus, Nucleus, Nucleolus, Cytoplasm
Isoforms lacking the KTS motif have a diffuse nuclear location . Shuttles between nucleus and cytoplasm.
Subcellular locations: Nucleus speckle
Subcellular locations: Nucleus, Nucleoplasm
Expressed in the kidney and a subset of hematopoietic cells.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: WT1_HUMAN\n - species: Homo sapiens\n - sequence: MGSDVRDLNALLPAVPSLGGGGGCALPVSGAAQWAPVLDFAPPGASAYGSLGGPAPPPAPPPPPPPPPHSFIKQEPSWGGAEPHEEQCLSAFTVHFSGQFTGTAGACRYGPFGPPPPSQASSGQARMFPNAPYLPSCLESQPAIRNQGYSTVTFDGTPSYGHTPSHHAAQFPNHSFKHEDPMGQQGSLGEQQYSVPPPVYGCHTPTDSCTGSQALLLRTPYSSDNLYQMTSQLECMTWNQMNLGATLKGVAAGSSSSVKWTEGQSNHSTGYESDNHTTPILCGAQYRIHTHGVFRGIQDVRRVPGVAPTLVRSASETSEKRPFMCAYPGCNKRYFKLSHLQMHSRKHTGEKPYQCDFKDCERRFSRSDQLKRHQRRHTGVKPFQCKTCQRKFSRSDHLKTHTRTHTGKTSEKPFSCRWPSCQKKFARSDELVRHHNMHQRNMTKLQLAL\n ",
"role": "user"
},
{
"content": "Transcription factor that plays an important role in cellular development and cell survival . Recognizes and binds to the DNA sequence 5'-GCG(T/G)GGGCG-3' ( ). Regulates the expression of numerous target genes, including EPO. Plays an essential role for development of the urogenital system. It has a tumor suppressor as well as an oncogenic role in tumor formation. Function may be isoform-specific: isoforms lacking the KTS motif may act as transcription factors . Isoforms containing the KTS motif may bind mRNA and play a role in mRNA metabolism or splicing . Isoform 1 has lower affinity for DNA, and can bind RNA .\nSubcellular locations: Nucleus, Nucleus, Nucleolus, Cytoplasm\nIsoforms lacking the KTS motif have a diffuse nuclear location . Shuttles between nucleus and cytoplasm.\nSubcellular locations: Nucleus speckle\nSubcellular locations: Nucleus, Nucleoplasm\nExpressed in the kidney and a subset of hematopoietic cells.",
"role": "assistant"
}
] |
CAN2_MACFA
|
Macaca fascicularis
|
MAGIAAKLVKDREAAEGLGSHERAIKYLNQDYEALRNECLEAGTLFQDPSFPAIPSALGFKELGPYSSKTRGIEWKRPTEICADPQFIIGGATRTDICQGALGDCWLLAAIASLTLNEEILARVVPLNQSFQENYAGIFHFQFWQYGEWVEVVVDDRLPTKDGELLFVHSAEGSEFWSALLEKAYAKINGCYEALSGGATTEGFEDFTGGIAEWYELKKPPPNLFKIIQKALQKGSLLGCSIDITSAADSEAITYQKLVKGHAYSVTGAEEVESSGSLQKLIRIRNPWGEVEWTGRWNDNCPSWNTIDPEERERLTRRHEDGEFWMSFSDFLRHYSRLEICNLTPDTLTSDTYKKWKLTKMDGNWRRGSTAGGCRNYPNTFWMNPQYLIKLEEEDEDEEDGESGCTFLVGLIQKHRRRQRKMGEDMHTIGFGIYEVPEELSGQTNIHLSKNFFLTNRARERSDTFINLREVLNRFKLPPGEYILVPSTFEPNKDGDFCIRVFSEKKADYQAVDDEIEANLEEFDISEDDIDDGFRRLFAQLAGEDAEISAFELQTILRRVLAKRQDIKSDGFSIETCKIMVDMLDSDGSGKLGLKEFYILWTKIQKYQKIYREIDVDRSGTMNSYEMRKALEEAGFKMPCQLHQVIVARFADDQLIIDFDNFVRCLVRLETLFKIFKQLDPENTGTIELDLISWLCFSVL
|
Calcium-regulated non-lysosomal thiol-protease which catalyzes limited proteolysis of substrates involved in cytoskeletal remodeling and signal transduction. Proteolytically cleaves MYOC at 'Arg-226'. Proteolytically cleaves CPEB3 following neuronal stimulation which abolishes CPEB3 translational repressor activity, leading to translation of CPEB3 target mRNAs.
Subcellular locations: Cytoplasm, Cell membrane
Translocates to the plasma membrane upon Ca(2+) binding.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CAN2_MACFA\n - species: Macaca fascicularis\n - sequence: MAGIAAKLVKDREAAEGLGSHERAIKYLNQDYEALRNECLEAGTLFQDPSFPAIPSALGFKELGPYSSKTRGIEWKRPTEICADPQFIIGGATRTDICQGALGDCWLLAAIASLTLNEEILARVVPLNQSFQENYAGIFHFQFWQYGEWVEVVVDDRLPTKDGELLFVHSAEGSEFWSALLEKAYAKINGCYEALSGGATTEGFEDFTGGIAEWYELKKPPPNLFKIIQKALQKGSLLGCSIDITSAADSEAITYQKLVKGHAYSVTGAEEVESSGSLQKLIRIRNPWGEVEWTGRWNDNCPSWNTIDPEERERLTRRHEDGEFWMSFSDFLRHYSRLEICNLTPDTLTSDTYKKWKLTKMDGNWRRGSTAGGCRNYPNTFWMNPQYLIKLEEEDEDEEDGESGCTFLVGLIQKHRRRQRKMGEDMHTIGFGIYEVPEELSGQTNIHLSKNFFLTNRARERSDTFINLREVLNRFKLPPGEYILVPSTFEPNKDGDFCIRVFSEKKADYQAVDDEIEANLEEFDISEDDIDDGFRRLFAQLAGEDAEISAFELQTILRRVLAKRQDIKSDGFSIETCKIMVDMLDSDGSGKLGLKEFYILWTKIQKYQKIYREIDVDRSGTMNSYEMRKALEEAGFKMPCQLHQVIVARFADDQLIIDFDNFVRCLVRLETLFKIFKQLDPENTGTIELDLISWLCFSVL\n ",
"role": "user"
},
{
"content": "Calcium-regulated non-lysosomal thiol-protease which catalyzes limited proteolysis of substrates involved in cytoskeletal remodeling and signal transduction. Proteolytically cleaves MYOC at 'Arg-226'. Proteolytically cleaves CPEB3 following neuronal stimulation which abolishes CPEB3 translational repressor activity, leading to translation of CPEB3 target mRNAs.\nSubcellular locations: Cytoplasm, Cell membrane\nTranslocates to the plasma membrane upon Ca(2+) binding.",
"role": "assistant"
}
] |
CYB_LEPSH
|
Lepilemur sahamalazensis
|
MTNTRKNHPLLKIINNSLIDLPTPPNISSLWNFGSLLGACLTIQIITGLFLAMHYTADTMTAFSSVAHICRDVNYGWTIRYLHANGASMFFLCLFIHVGRGLYYGSFTLLETWNVGITLLFSVMATAFMGYVLPWGQMSFWGATVITNLLSAIPYVGTDLVEWIWGGFSVGKATLTRFFALHFILPFITSALVMIHLLFLHETGSNNPLGVPSNSDKIPFHPYYTTKDFLGLLLLILLLMTMALFYPDLLGDPDNYTPANPLNTPPHIKPEWYFLFAYAILRSIPNKLGGVMALILSILILVMFPFLQPNKQQTMMFRPLSQFLFWILVADLLTLTWIGGQPVEDPFINIGQMASMLYFSLMIFIMPTTCFIENKMLKW
|
Component of the ubiquinol-cytochrome c reductase complex (complex III or cytochrome b-c1 complex) that is part of the mitochondrial respiratory chain. The b-c1 complex mediates electron transfer from ubiquinol to cytochrome c. Contributes to the generation of a proton gradient across the mitochondrial membrane that is then used for ATP synthesis.
Subcellular locations: Mitochondrion inner membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CYB_LEPSH\n - species: Lepilemur sahamalazensis\n - sequence: MTNTRKNHPLLKIINNSLIDLPTPPNISSLWNFGSLLGACLTIQIITGLFLAMHYTADTMTAFSSVAHICRDVNYGWTIRYLHANGASMFFLCLFIHVGRGLYYGSFTLLETWNVGITLLFSVMATAFMGYVLPWGQMSFWGATVITNLLSAIPYVGTDLVEWIWGGFSVGKATLTRFFALHFILPFITSALVMIHLLFLHETGSNNPLGVPSNSDKIPFHPYYTTKDFLGLLLLILLLMTMALFYPDLLGDPDNYTPANPLNTPPHIKPEWYFLFAYAILRSIPNKLGGVMALILSILILVMFPFLQPNKQQTMMFRPLSQFLFWILVADLLTLTWIGGQPVEDPFINIGQMASMLYFSLMIFIMPTTCFIENKMLKW\n ",
"role": "user"
},
{
"content": "Component of the ubiquinol-cytochrome c reductase complex (complex III or cytochrome b-c1 complex) that is part of the mitochondrial respiratory chain. The b-c1 complex mediates electron transfer from ubiquinol to cytochrome c. Contributes to the generation of a proton gradient across the mitochondrial membrane that is then used for ATP synthesis.\nSubcellular locations: Mitochondrion inner membrane",
"role": "assistant"
}
] |
FIBA_MACFA
|
Macaca fascicularis
|
ADTGEGDFLAEGGGVR
|
Cleaved by the protease thrombin to yield monomers which, together with fibrinogen beta (FGB) and fibrinogen gamma (FGG), polymerize to form an insoluble fibrin matrix. Fibrin has a major function in hemostasis as one of the primary components of blood clots. In addition, functions during the early stages of wound repair to stabilize the lesion and guide cell migration during re-epithelialization. Was originally thought to be essential for platelet aggregation, based on in vitro studies using anticoagulated blood. However, subsequent studies have shown that it is not absolutely required for thrombus formation in vivo. Enhances expression of SELP in activated platelets via an ITGB3-dependent pathway. Maternal fibrinogen is essential for successful pregnancy. Fibrin deposition is also associated with infection, where it protects against IFNG-mediated hemorrhage. May also facilitate the immune response via both innate and T-cell mediated pathways.
Subcellular locations: Secreted
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: FIBA_MACFA\n - species: Macaca fascicularis\n - sequence: ADTGEGDFLAEGGGVR\n ",
"role": "user"
},
{
"content": "Cleaved by the protease thrombin to yield monomers which, together with fibrinogen beta (FGB) and fibrinogen gamma (FGG), polymerize to form an insoluble fibrin matrix. Fibrin has a major function in hemostasis as one of the primary components of blood clots. In addition, functions during the early stages of wound repair to stabilize the lesion and guide cell migration during re-epithelialization. Was originally thought to be essential for platelet aggregation, based on in vitro studies using anticoagulated blood. However, subsequent studies have shown that it is not absolutely required for thrombus formation in vivo. Enhances expression of SELP in activated platelets via an ITGB3-dependent pathway. Maternal fibrinogen is essential for successful pregnancy. Fibrin deposition is also associated with infection, where it protects against IFNG-mediated hemorrhage. May also facilitate the immune response via both innate and T-cell mediated pathways.\nSubcellular locations: Secreted",
"role": "assistant"
}
] |
JMJD7_HUMAN
|
Homo sapiens
|
MAEAALEAVRSELREFPAAARELCVPLAVPYLDKPPTPLHFYRDWVCPNRPCIIRNALQHWPALQKWSLPYFRATVGSTEVSVAVTPDGYADAVRGDRFMMPAERRLPLSFVLDVLEGRAQHPGVLYVQKQCSNLPSELPQLLPDLESHVPWASEALGKMPDAVNFWLGEAAAVTSLHKDHYENLYCVVSGEKHFLFHPPSDRPFIPYELYTPATYQLTEEGTFKVVDEEAMEKVPWIPLDPLAPDLARYPSYSQAQALRCTVRAGEMLYLPALWFHHVQQSQGCIAVNFWYDMEYDLKYSYFQLLDSLTKASGLD
|
Bifunctional enzyme that acts both as an endopeptidase and 2-oxoglutarate-dependent monooxygenase (, ). Endopeptidase that cleaves histones N-terminal tails at the carboxyl side of methylated arginine or lysine residues, to generate 'tailless nucleosomes', which may trigger transcription elongation . Preferentially recognizes and cleaves monomethylated and dimethylated arginine residues of histones H2, H3 and H4 . After initial cleavage, continues to digest histones tails via its aminopeptidase activity . Additionally, may play a role in protein biosynthesis by modifying the translation machinery . Acts as a Fe(2+) and 2-oxoglutarate-dependent monooxygenase, catalyzing (S)-stereospecific hydroxylation at C-3 of 'Lys-22' of DRG1 and 'Lys-21' of DRG2 translation factors (TRAFAC), promoting their interaction with ribonucleic acids (RNA) .
Subcellular locations: Nucleus, Cytoplasm
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: JMJD7_HUMAN\n - species: Homo sapiens\n - sequence: MAEAALEAVRSELREFPAAARELCVPLAVPYLDKPPTPLHFYRDWVCPNRPCIIRNALQHWPALQKWSLPYFRATVGSTEVSVAVTPDGYADAVRGDRFMMPAERRLPLSFVLDVLEGRAQHPGVLYVQKQCSNLPSELPQLLPDLESHVPWASEALGKMPDAVNFWLGEAAAVTSLHKDHYENLYCVVSGEKHFLFHPPSDRPFIPYELYTPATYQLTEEGTFKVVDEEAMEKVPWIPLDPLAPDLARYPSYSQAQALRCTVRAGEMLYLPALWFHHVQQSQGCIAVNFWYDMEYDLKYSYFQLLDSLTKASGLD\n ",
"role": "user"
},
{
"content": "Bifunctional enzyme that acts both as an endopeptidase and 2-oxoglutarate-dependent monooxygenase (, ). Endopeptidase that cleaves histones N-terminal tails at the carboxyl side of methylated arginine or lysine residues, to generate 'tailless nucleosomes', which may trigger transcription elongation . Preferentially recognizes and cleaves monomethylated and dimethylated arginine residues of histones H2, H3 and H4 . After initial cleavage, continues to digest histones tails via its aminopeptidase activity . Additionally, may play a role in protein biosynthesis by modifying the translation machinery . Acts as a Fe(2+) and 2-oxoglutarate-dependent monooxygenase, catalyzing (S)-stereospecific hydroxylation at C-3 of 'Lys-22' of DRG1 and 'Lys-21' of DRG2 translation factors (TRAFAC), promoting their interaction with ribonucleic acids (RNA) .\nSubcellular locations: Nucleus, Cytoplasm",
"role": "assistant"
}
] |
SMIM6_HUMAN
|
Homo sapiens
|
MDQLVFKETIWNDAFWQNPWDQGGLAVIILFITAVLLLILFAIVFGLLTSTENTQCEAGEEE
|
Subcellular locations: Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SMIM6_HUMAN\n - species: Homo sapiens\n - sequence: MDQLVFKETIWNDAFWQNPWDQGGLAVIILFITAVLLLILFAIVFGLLTSTENTQCEAGEEE\n ",
"role": "user"
},
{
"content": "Subcellular locations: Membrane",
"role": "assistant"
}
] |
EIF3G_HUMAN
|
Homo sapiens
|
MPTGDFDSKPSWADQVEEEGEDDKCVTSELLKGIPLATGDTSPEPELLPGAPLPPPKEVINGNIKTVTEYKIDEDGKKFKIVRTFRIETRKASKAVARRKNWKKFGNSEFDPPGPNVATTTVSDDVSMTFITSKEDLNCQEEEDPMNKLKGQKIVSCRICKGDHWTTRCPYKDTLGPMQKELAEQLGLSTGEKEKLPGELEPVQATQNKTGKYVPPSLRDGASRRGESMQPNRRADDNATIRVTNLSEDTRETDLQELFRPFGSISRIYLAKDKTTGQSKGFAFISFHRREDAARAIAGVSGFGYDHLILNVEWAKPSTN
|
RNA-binding component of the eukaryotic translation initiation factor 3 (eIF-3) complex, which is required for several steps in the initiation of protein synthesis ( ). The eIF-3 complex associates with the 40S ribosome and facilitates the recruitment of eIF-1, eIF-1A, eIF-2:GTP:methionyl-tRNAi and eIF-5 to form the 43S pre-initiation complex (43S PIC). The eIF-3 complex stimulates mRNA recruitment to the 43S PIC and scanning of the mRNA for AUG recognition. The eIF-3 complex is also required for disassembly and recycling of post-termination ribosomal complexes and subsequently prevents premature joining of the 40S and 60S ribosomal subunits prior to initiation . The eIF-3 complex specifically targets and initiates translation of a subset of mRNAs involved in cell proliferation, including cell cycling, differentiation and apoptosis, and uses different modes of RNA stem-loop binding to exert either translational activation or repression . This subunit can bind 18S rRNA.
(Microbial infection) In case of FCV infection, plays a role in the ribosomal termination-reinitiation event leading to the translation of VP2 .
Subcellular locations: Cytoplasm, Nucleus, Cytoplasm, Perinuclear region
Colocalizes with AIFM1 in the nucleus and perinuclear region.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: EIF3G_HUMAN\n - species: Homo sapiens\n - sequence: MPTGDFDSKPSWADQVEEEGEDDKCVTSELLKGIPLATGDTSPEPELLPGAPLPPPKEVINGNIKTVTEYKIDEDGKKFKIVRTFRIETRKASKAVARRKNWKKFGNSEFDPPGPNVATTTVSDDVSMTFITSKEDLNCQEEEDPMNKLKGQKIVSCRICKGDHWTTRCPYKDTLGPMQKELAEQLGLSTGEKEKLPGELEPVQATQNKTGKYVPPSLRDGASRRGESMQPNRRADDNATIRVTNLSEDTRETDLQELFRPFGSISRIYLAKDKTTGQSKGFAFISFHRREDAARAIAGVSGFGYDHLILNVEWAKPSTN\n ",
"role": "user"
},
{
"content": "RNA-binding component of the eukaryotic translation initiation factor 3 (eIF-3) complex, which is required for several steps in the initiation of protein synthesis ( ). The eIF-3 complex associates with the 40S ribosome and facilitates the recruitment of eIF-1, eIF-1A, eIF-2:GTP:methionyl-tRNAi and eIF-5 to form the 43S pre-initiation complex (43S PIC). The eIF-3 complex stimulates mRNA recruitment to the 43S PIC and scanning of the mRNA for AUG recognition. The eIF-3 complex is also required for disassembly and recycling of post-termination ribosomal complexes and subsequently prevents premature joining of the 40S and 60S ribosomal subunits prior to initiation . The eIF-3 complex specifically targets and initiates translation of a subset of mRNAs involved in cell proliferation, including cell cycling, differentiation and apoptosis, and uses different modes of RNA stem-loop binding to exert either translational activation or repression . This subunit can bind 18S rRNA.\n(Microbial infection) In case of FCV infection, plays a role in the ribosomal termination-reinitiation event leading to the translation of VP2 .\nSubcellular locations: Cytoplasm, Nucleus, Cytoplasm, Perinuclear region\nColocalizes with AIFM1 in the nucleus and perinuclear region.",
"role": "assistant"
}
] |
NPT2B_HUMAN
|
Homo sapiens
|
MAPWPELGDAQPNPDKYLEGAAGQQPTAPDKSKETNKTDNTEAPVTKIELLPSYSTATLIDEPTEVDDPWNLPTLQDSGIKWSERDTKGKILCFFQGIGRLILLLGFLYFFVCSLDILSSAFQLVGGKMAGQFFSNSSIMSNPLLGLVIGVLVTVLVQSSSTSTSIVVSMVSSSLLTVRAAIPIIMGANIGTSITNTIVALMQVGDRSEFRRAFAGATVHDFFNWLSVLVLLPVEVATHYLEIITQLIVESFHFKNGEDAPDLLKVITKPFTKLIVQLDKKVISQIAMNDEKAKNKSLVKIWCKTFTNKTQINVTVPSTANCTSPSLCWTDGIQNWTMKNVTYKENIAKCQHIFVNFHLPDLAVGTILLILSLLVLCGCLIMIVKILGSVLKGQVATVIKKTINTDFPFPFAWLTGYLAILVGAGMTFIVQSSSVFTSALTPLIGIGVITIERAYPLTLGSNIGTTTTAILAALASPGNALRSSLQIALCHFFFNISGILLWYPIPFTRLPIRMAKGLGNISAKYRWFAVFYLIIFFFLIPLTVFGLSLAGWRVLVGVGVPVVFIIILVLCLRLLQSRCPRVLPKKLQNWNFLPLWMRSLKPWDAVVSKFTGCFQMRCCCCCRVCCRACCLLCDCPKCCRCSKCCEDLEEAQEGQDVPVKAPETFDNITISREAQGEVPASDSKTECTAL
|
Involved in actively transporting phosphate into cells via Na(+) cotransport.
Subcellular locations: Apical cell membrane
Localized at the brush border membranes of enterocytes.
Highly expressed in lung. Also detected in pancreas, kidney, small intestine, ovary, testis, prostate and mammary gland. In lung, it is found in alveolar type II cells but not in bronchiolar epithelium.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NPT2B_HUMAN\n - species: Homo sapiens\n - sequence: MAPWPELGDAQPNPDKYLEGAAGQQPTAPDKSKETNKTDNTEAPVTKIELLPSYSTATLIDEPTEVDDPWNLPTLQDSGIKWSERDTKGKILCFFQGIGRLILLLGFLYFFVCSLDILSSAFQLVGGKMAGQFFSNSSIMSNPLLGLVIGVLVTVLVQSSSTSTSIVVSMVSSSLLTVRAAIPIIMGANIGTSITNTIVALMQVGDRSEFRRAFAGATVHDFFNWLSVLVLLPVEVATHYLEIITQLIVESFHFKNGEDAPDLLKVITKPFTKLIVQLDKKVISQIAMNDEKAKNKSLVKIWCKTFTNKTQINVTVPSTANCTSPSLCWTDGIQNWTMKNVTYKENIAKCQHIFVNFHLPDLAVGTILLILSLLVLCGCLIMIVKILGSVLKGQVATVIKKTINTDFPFPFAWLTGYLAILVGAGMTFIVQSSSVFTSALTPLIGIGVITIERAYPLTLGSNIGTTTTAILAALASPGNALRSSLQIALCHFFFNISGILLWYPIPFTRLPIRMAKGLGNISAKYRWFAVFYLIIFFFLIPLTVFGLSLAGWRVLVGVGVPVVFIIILVLCLRLLQSRCPRVLPKKLQNWNFLPLWMRSLKPWDAVVSKFTGCFQMRCCCCCRVCCRACCLLCDCPKCCRCSKCCEDLEEAQEGQDVPVKAPETFDNITISREAQGEVPASDSKTECTAL\n ",
"role": "user"
},
{
"content": "Involved in actively transporting phosphate into cells via Na(+) cotransport.\nSubcellular locations: Apical cell membrane\nLocalized at the brush border membranes of enterocytes.\nHighly expressed in lung. Also detected in pancreas, kidney, small intestine, ovary, testis, prostate and mammary gland. In lung, it is found in alveolar type II cells but not in bronchiolar epithelium.",
"role": "assistant"
}
] |
ITB8_HUMAN
|
Homo sapiens
|
MCGSALAFFTAAFVCLQNDRRGPASFLWAAWVFSLVLGLGQGEDNRCASSNAASCARCLALGPECGWCVQEDFISGGSRSERCDIVSNLISKGCSVDSIEYPSVHVIIPTENEINTQVTPGEVSIQLRPGAEANFMLKVHPLKKYPVDLYYLVDVSASMHNNIEKLNSVGNDLSRKMAFFSRDFRLGFGSYVDKTVSPYISIHPERIHNQCSDYNLDCMPPHGYIHVLSLTENITEFEKAVHRQKISGNIDTPEGGFDAMLQAAVCESHIGWRKEAKRLLLVMTDQTSHLALDSKLAGIVVPNDGNCHLKNNVYVKSTTMEHPSLGQLSEKLIDNNINVIFAVQGKQFHWYKDLLPLLPGTIAGEIESKAANLNNLVVEAYQKLISEVKVQVENQVQGIYFNITAICPDGSRKPGMEGCRNVTSNDEVLFNVTVTMKKCDVTGGKNYAIIKPIGFNETAKIHIHRNCSCQCEDNRGPKGKCVDETFLDSKCFQCDENKCHFDEDQFSSESCKSHKDQPVCSGRGVCVCGKCSCHKIKLGKVYGKYCEKDDFSCPYHHGNLCAGHGECEAGRCQCFSGWEGDRCQCPSAAAQHCVNSKGQVCSGRGTCVCGRCECTDPRSIGRFCEHCPTCYTACKENWNCMQCLHPHNLSQAILDQCKTSCALMEQQHYVDQTSECFSSPSYLRIFFIIFIVTFLIGLLKVLIIRQVILQWNSNKIKSSSDYRVSASKKDKLILQSVCTRAVTYRREKPEEIKMDISKLNAHETFRCNF
|
Integrin alpha-V:beta-8 (ITGAV:ITGB8) is a receptor for fibronectin . It recognizes the sequence R-G-D in its ligands . Integrin alpha-V:beta-6 (ITGAV:ITGB6) mediates R-G-D-dependent release of transforming growth factor beta-1 (TGF-beta-1) from regulatory Latency-associated peptide (LAP), thereby playing a key role in TGF-beta-1 activation on the surface of activated regulatory T-cells (Tregs) (Probable). Required during vasculogenesis (By similarity).
Subcellular locations: Cell membrane
Placenta, kidney, brain, ovary, uterus and in several transformed cells. Transiently expressed in 293 human embryonic kidney cells.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ITB8_HUMAN\n - species: Homo sapiens\n - sequence: MCGSALAFFTAAFVCLQNDRRGPASFLWAAWVFSLVLGLGQGEDNRCASSNAASCARCLALGPECGWCVQEDFISGGSRSERCDIVSNLISKGCSVDSIEYPSVHVIIPTENEINTQVTPGEVSIQLRPGAEANFMLKVHPLKKYPVDLYYLVDVSASMHNNIEKLNSVGNDLSRKMAFFSRDFRLGFGSYVDKTVSPYISIHPERIHNQCSDYNLDCMPPHGYIHVLSLTENITEFEKAVHRQKISGNIDTPEGGFDAMLQAAVCESHIGWRKEAKRLLLVMTDQTSHLALDSKLAGIVVPNDGNCHLKNNVYVKSTTMEHPSLGQLSEKLIDNNINVIFAVQGKQFHWYKDLLPLLPGTIAGEIESKAANLNNLVVEAYQKLISEVKVQVENQVQGIYFNITAICPDGSRKPGMEGCRNVTSNDEVLFNVTVTMKKCDVTGGKNYAIIKPIGFNETAKIHIHRNCSCQCEDNRGPKGKCVDETFLDSKCFQCDENKCHFDEDQFSSESCKSHKDQPVCSGRGVCVCGKCSCHKIKLGKVYGKYCEKDDFSCPYHHGNLCAGHGECEAGRCQCFSGWEGDRCQCPSAAAQHCVNSKGQVCSGRGTCVCGRCECTDPRSIGRFCEHCPTCYTACKENWNCMQCLHPHNLSQAILDQCKTSCALMEQQHYVDQTSECFSSPSYLRIFFIIFIVTFLIGLLKVLIIRQVILQWNSNKIKSSSDYRVSASKKDKLILQSVCTRAVTYRREKPEEIKMDISKLNAHETFRCNF\n ",
"role": "user"
},
{
"content": "Integrin alpha-V:beta-8 (ITGAV:ITGB8) is a receptor for fibronectin . It recognizes the sequence R-G-D in its ligands . Integrin alpha-V:beta-6 (ITGAV:ITGB6) mediates R-G-D-dependent release of transforming growth factor beta-1 (TGF-beta-1) from regulatory Latency-associated peptide (LAP), thereby playing a key role in TGF-beta-1 activation on the surface of activated regulatory T-cells (Tregs) (Probable). Required during vasculogenesis (By similarity).\nSubcellular locations: Cell membrane\nPlacenta, kidney, brain, ovary, uterus and in several transformed cells. Transiently expressed in 293 human embryonic kidney cells.",
"role": "assistant"
}
] |
CNKR2_HUMAN
|
Homo sapiens
|
MALIMEPVSKWSPSQVVDWMKGLDDCLQQYIKNFEREKISGDQLLRITHQELEDLGVSRIGHQELILEAVDLLCALNYGLETENLKTLSHKLNASAKNLQNFITGRRRSGHYDGRTSRKLPNDFLTSVVDLIGAAKSLLAWLDRSPFAAVTDYSVTRNNVIQLCLELTTIVQQDCTVYETENKILHVCKTLSGVCDHIISLSSDPLVSQSAHLEVIQLANIKPSEGLGMYIKSTYDGLHVITGTTENSPADRCKKIHAGDEVIQVNHQTVVGWQLKNLVNALREDPSGVILTLKKRPQSMLTSAPALLKNMRWKPLALQPLIPRSPTSSVATPSSTISTPTKRDSSALQDLYIPPPPAEPYIPRDEKGNLPCEDLRGHMVGKPVHKGSESPNSFLDQEYRKRFNIVEEDTVLYCYEYEKGRSSSQGRRESTPTYGKLRPISMPVEYNWVGDYEDPNKMKRDSRRENSLLRYMSNEKIAQEEYMFQRNSKKDTGKKSKKKGDKSNSPTHYSLLPSLQMDALRQDIMGTPVPETTLYHTFQQSSLQHKSKKKNKGPIAGKSKRRISCKDLGRGDCEGWLWKKKDAKSYFSQKWKKYWFVLKDASLYWYINEEDEKAEGFISLPEFKIDRASECRKKYAFKACHPKIKSFYFAAEHLDDMNRWLNRINMLTAGYAERERIKQEQDYWSESDKEEADTPSTPKQDSPPPPYDTYPRPPSMSCASPYVEAKHSRLSSTETSQSQSSHEEFRQEVTGSSAVSPIRKTASQRRSWQDLIETPLTSSGLHYLQTLPLEDSVFSDSAAISPEHRRQSTLPTQKCHLQDHYGPYPLAESERMQVLNGNGGKPRSFTLPRDSGFNHCCLNAPVSACDPQDDVQPPEVEEEEEEEEEEGEAAGENIGEKSESREEKLGDSLQDLYRALEQASLSPLGEHRISTKMEYKLSFIKRCNDPVMNEKLHRLRILKSTLKAREGEVAIIDKVLDNPDLTSKEFQQWKQMYLDLFLDICQNTTSNDPLSISSEVDVITSSLAHTHSYIETHV
|
May function as an adapter protein or regulator of Ras signaling pathways.
Subcellular locations: Cytoplasm, Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CNKR2_HUMAN\n - species: Homo sapiens\n - sequence: MALIMEPVSKWSPSQVVDWMKGLDDCLQQYIKNFEREKISGDQLLRITHQELEDLGVSRIGHQELILEAVDLLCALNYGLETENLKTLSHKLNASAKNLQNFITGRRRSGHYDGRTSRKLPNDFLTSVVDLIGAAKSLLAWLDRSPFAAVTDYSVTRNNVIQLCLELTTIVQQDCTVYETENKILHVCKTLSGVCDHIISLSSDPLVSQSAHLEVIQLANIKPSEGLGMYIKSTYDGLHVITGTTENSPADRCKKIHAGDEVIQVNHQTVVGWQLKNLVNALREDPSGVILTLKKRPQSMLTSAPALLKNMRWKPLALQPLIPRSPTSSVATPSSTISTPTKRDSSALQDLYIPPPPAEPYIPRDEKGNLPCEDLRGHMVGKPVHKGSESPNSFLDQEYRKRFNIVEEDTVLYCYEYEKGRSSSQGRRESTPTYGKLRPISMPVEYNWVGDYEDPNKMKRDSRRENSLLRYMSNEKIAQEEYMFQRNSKKDTGKKSKKKGDKSNSPTHYSLLPSLQMDALRQDIMGTPVPETTLYHTFQQSSLQHKSKKKNKGPIAGKSKRRISCKDLGRGDCEGWLWKKKDAKSYFSQKWKKYWFVLKDASLYWYINEEDEKAEGFISLPEFKIDRASECRKKYAFKACHPKIKSFYFAAEHLDDMNRWLNRINMLTAGYAERERIKQEQDYWSESDKEEADTPSTPKQDSPPPPYDTYPRPPSMSCASPYVEAKHSRLSSTETSQSQSSHEEFRQEVTGSSAVSPIRKTASQRRSWQDLIETPLTSSGLHYLQTLPLEDSVFSDSAAISPEHRRQSTLPTQKCHLQDHYGPYPLAESERMQVLNGNGGKPRSFTLPRDSGFNHCCLNAPVSACDPQDDVQPPEVEEEEEEEEEEGEAAGENIGEKSESREEKLGDSLQDLYRALEQASLSPLGEHRISTKMEYKLSFIKRCNDPVMNEKLHRLRILKSTLKAREGEVAIIDKVLDNPDLTSKEFQQWKQMYLDLFLDICQNTTSNDPLSISSEVDVITSSLAHTHSYIETHV\n ",
"role": "user"
},
{
"content": "May function as an adapter protein or regulator of Ras signaling pathways.\nSubcellular locations: Cytoplasm, Membrane",
"role": "assistant"
}
] |
RSSA_CHLAE
|
Chlorocebus aethiops
|
MSGALDVLQMKEEDVLKFLAAGTHLGGTNLDFQMEQYIYKRKSDGIYIINLKRTWEKLLLAARAIVAIENPADVSVISSRNTGQRAVLKFAAATGATPIAGRFTPGTFTNQIQAAFREPRLLVVTDPRADHQPLTEASYVNLPTIALCNTDSPLRYVDIAIPCNNKGAHSVGLMWWMLAREVLRMRGTISREHPWEVMPDLYFYRDPEEIEKEEQAAAEKAVTKEEFQGEWTAPAPEFTATQPEVADWSEGVQVPSVPIQQFPTEDWSAQPATEDWSAAPTAQATEWVGATTEWS
|
Required for the assembly and/or stability of the 40S ribosomal subunit. Required for the processing of the 20S rRNA-precursor to mature 18S rRNA in a late step of the maturation of 40S ribosomal subunits. Also functions as a cell surface receptor for laminin. Plays a role in cell adhesion to the basement membrane and in the consequent activation of signaling transduction pathways. May play a role in cell fate determination and tissue morphogenesis. Also acts as a receptor for several other ligands, including the pathogenic prion protein, viruses, and bacteria. Acts as a PPP1R16B-dependent substrate of PPP1CA.
Subcellular locations: Cell membrane, Cytoplasm, Nucleus
67LR is found at the surface of the plasma membrane, with its C-terminal laminin-binding domain accessible to extracellular ligands. 37LRP is found at the cell surface, in the cytoplasm and in the nucleus. Colocalizes with PPP1R16B in the cell membrane (By similarity).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: RSSA_CHLAE\n - species: Chlorocebus aethiops\n - sequence: MSGALDVLQMKEEDVLKFLAAGTHLGGTNLDFQMEQYIYKRKSDGIYIINLKRTWEKLLLAARAIVAIENPADVSVISSRNTGQRAVLKFAAATGATPIAGRFTPGTFTNQIQAAFREPRLLVVTDPRADHQPLTEASYVNLPTIALCNTDSPLRYVDIAIPCNNKGAHSVGLMWWMLAREVLRMRGTISREHPWEVMPDLYFYRDPEEIEKEEQAAAEKAVTKEEFQGEWTAPAPEFTATQPEVADWSEGVQVPSVPIQQFPTEDWSAQPATEDWSAAPTAQATEWVGATTEWS\n ",
"role": "user"
},
{
"content": "Required for the assembly and/or stability of the 40S ribosomal subunit. Required for the processing of the 20S rRNA-precursor to mature 18S rRNA in a late step of the maturation of 40S ribosomal subunits. Also functions as a cell surface receptor for laminin. Plays a role in cell adhesion to the basement membrane and in the consequent activation of signaling transduction pathways. May play a role in cell fate determination and tissue morphogenesis. Also acts as a receptor for several other ligands, including the pathogenic prion protein, viruses, and bacteria. Acts as a PPP1R16B-dependent substrate of PPP1CA.\nSubcellular locations: Cell membrane, Cytoplasm, Nucleus\n67LR is found at the surface of the plasma membrane, with its C-terminal laminin-binding domain accessible to extracellular ligands. 37LRP is found at the cell surface, in the cytoplasm and in the nucleus. Colocalizes with PPP1R16B in the cell membrane (By similarity).",
"role": "assistant"
}
] |
HUS1B_HUMAN
|
Homo sapiens
|
MKFRAKITGKGCLELFIHVSGTVARLAKVCVLRVRPDSLCFGPAGSGGLHEARLWCEVRQGAFQQFRMEGVSEDLDEIHLELTAEHLSRAARSAAGASSLKLQLTHKRRPSLTVAVELVSSLGRARSVVHDLPVRVLPRRVWRDCLPPSLRASDASIRLPRWRTLRSIVERMANVGSHVLVEANLSGRMTLSIETEVVSIQSYFKNLGNPPQSAVGVPENRDLESMVQVRVDNRKLLQFLEGQQIHPTTALCNIWDNTLLQLVLVQEDVSLQYFIPAL
|
Expressed strongly in testis, less in spleen, thymus, prostate, colon and leukocytes.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HUS1B_HUMAN\n - species: Homo sapiens\n - sequence: MKFRAKITGKGCLELFIHVSGTVARLAKVCVLRVRPDSLCFGPAGSGGLHEARLWCEVRQGAFQQFRMEGVSEDLDEIHLELTAEHLSRAARSAAGASSLKLQLTHKRRPSLTVAVELVSSLGRARSVVHDLPVRVLPRRVWRDCLPPSLRASDASIRLPRWRTLRSIVERMANVGSHVLVEANLSGRMTLSIETEVVSIQSYFKNLGNPPQSAVGVPENRDLESMVQVRVDNRKLLQFLEGQQIHPTTALCNIWDNTLLQLVLVQEDVSLQYFIPAL\n ",
"role": "user"
},
{
"content": "Expressed strongly in testis, less in spleen, thymus, prostate, colon and leukocytes.",
"role": "assistant"
}
] |
SSRD_HUMAN
|
Homo sapiens
|
MAAMASLGALALLLLSSLSRCSAEACLEPQITPSYYTTSDAVISTETVFIVEISLTCKNRVQNMALYADVGGKQFPVTRGQDVGRYQVSWSLDHKSAHAGTYEVRFFDEESYSLLRKAQRNNEDISIIPPLFTVSVDHRGTWNGPWVSTEVLAAAIGLVIYYLAFSAKSHIQA
|
TRAP proteins are part of a complex whose function is to bind calcium to the ER membrane and thereby regulate the retention of ER resident proteins.
Subcellular locations: Endoplasmic reticulum membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SSRD_HUMAN\n - species: Homo sapiens\n - sequence: MAAMASLGALALLLLSSLSRCSAEACLEPQITPSYYTTSDAVISTETVFIVEISLTCKNRVQNMALYADVGGKQFPVTRGQDVGRYQVSWSLDHKSAHAGTYEVRFFDEESYSLLRKAQRNNEDISIIPPLFTVSVDHRGTWNGPWVSTEVLAAAIGLVIYYLAFSAKSHIQA\n ",
"role": "user"
},
{
"content": "TRAP proteins are part of a complex whose function is to bind calcium to the ER membrane and thereby regulate the retention of ER resident proteins.\nSubcellular locations: Endoplasmic reticulum membrane",
"role": "assistant"
}
] |
CNO10_MACFA
|
Macaca fascicularis
|
MAADKPADQGAEKHEGTGQSSGITDQEKELSTNAFQAFTSGNYDACLQHLACLQDINKDDYKIILNTAVAEFFKSNQTTTDNLRQTLNQLKNQVHSAVEEMDGLDDVENSMLYYNQAVILYHLRQYTEAISVGEKLYQFIEPFEEKFAQAVCFLLVDLYILTYQAEKALHLLAVLEKMISQGNNNKNGKNETGNNNNKDGSNHKAESGALIEAAKSKIHQYIVRAYIQMKSLKACKREIKSVMNTAGNSAPSLFLKSNFEYLRGNYRKAVKLLNSSNIAEHPGFMKTGECLRCMFWNNLGCIHFAMSKHNLGIFYFKKALQENDNVCAQLSAGSTDPGKKFSGRPMCTLLTNKRYELLYNCGIQLLHIGRPLAAFECLIEAVQVYHANPRLWLRLAECCIAANKGTSEQETKGLPSKKGIVQSIVGQGYHRKIVLASQSIQNTVYNDGQSSAIPVASMEFAAICLRNALLLLPEEQQDPKQENGAKNSNQLGGNTESSESSETCSSKSHDGDKFIPAPPSSPLRKQELENLKCSILACSAYVALALGDNLMALNHADKLLQQPKLSGSLKFLGHLYAAEALISLDRISDAITHLNPENVTDVSLGISSNEQDQGSDKGENEAMESSGKRAPQCYPSSVNSARTVMLFNLGSAYCLRSEYDKARKCLHQAASMIHPKEVPPEAILLAVYLELQNGNTQLALQIIKRNQLLPAVKTHSEVRKKPVFQPVHPIQPIQMPAFTTVQRK
|
Component of the CCR4-NOT complex which is one of the major cellular mRNA deadenylases and is linked to various cellular processes including bulk mRNA degradation, miRNA-mediated repression, translational repression during translational initiation and general transcription regulation. Additional complex functions may be a consequence of its influence on mRNA expression. Is not required for association of CNOT7 to the CCR4-NOT complex (By similarity).
Subcellular locations: Cytoplasm, Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CNO10_MACFA\n - species: Macaca fascicularis\n - sequence: MAADKPADQGAEKHEGTGQSSGITDQEKELSTNAFQAFTSGNYDACLQHLACLQDINKDDYKIILNTAVAEFFKSNQTTTDNLRQTLNQLKNQVHSAVEEMDGLDDVENSMLYYNQAVILYHLRQYTEAISVGEKLYQFIEPFEEKFAQAVCFLLVDLYILTYQAEKALHLLAVLEKMISQGNNNKNGKNETGNNNNKDGSNHKAESGALIEAAKSKIHQYIVRAYIQMKSLKACKREIKSVMNTAGNSAPSLFLKSNFEYLRGNYRKAVKLLNSSNIAEHPGFMKTGECLRCMFWNNLGCIHFAMSKHNLGIFYFKKALQENDNVCAQLSAGSTDPGKKFSGRPMCTLLTNKRYELLYNCGIQLLHIGRPLAAFECLIEAVQVYHANPRLWLRLAECCIAANKGTSEQETKGLPSKKGIVQSIVGQGYHRKIVLASQSIQNTVYNDGQSSAIPVASMEFAAICLRNALLLLPEEQQDPKQENGAKNSNQLGGNTESSESSETCSSKSHDGDKFIPAPPSSPLRKQELENLKCSILACSAYVALALGDNLMALNHADKLLQQPKLSGSLKFLGHLYAAEALISLDRISDAITHLNPENVTDVSLGISSNEQDQGSDKGENEAMESSGKRAPQCYPSSVNSARTVMLFNLGSAYCLRSEYDKARKCLHQAASMIHPKEVPPEAILLAVYLELQNGNTQLALQIIKRNQLLPAVKTHSEVRKKPVFQPVHPIQPIQMPAFTTVQRK\n ",
"role": "user"
},
{
"content": "Component of the CCR4-NOT complex which is one of the major cellular mRNA deadenylases and is linked to various cellular processes including bulk mRNA degradation, miRNA-mediated repression, translational repression during translational initiation and general transcription regulation. Additional complex functions may be a consequence of its influence on mRNA expression. Is not required for association of CNOT7 to the CCR4-NOT complex (By similarity).\nSubcellular locations: Cytoplasm, Nucleus",
"role": "assistant"
}
] |
MAK16_HUMAN
|
Homo sapiens
|
MQSDDVIWDTLGNKQFCSFKIRTKTQSFCRNEYSLTGLCNRSSCPLANSQYATIKEEKGQCYLYMKVIERAAFPRRLWERVRLSKNYEKALEQIDENLIYWPRFIRHKCKQRFTKITQYLIRIRKLTLKRQRKLVPLSKKVERREKRREEKALIAAQLDNAIEKELLERLKQDTYGDIYNFPIHAFDKALEQQEAESDSSDTEEKDDDDDDEEDVGKREFVEDGEVDESDISDFEDMDKLDASSDEDQDGKSSSEEEEEKALSAKHKGKMPLRGPLQRKRAYVEIEYEQETEPVAKAKTT
|
Subcellular locations: Nucleus, Nucleolus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MAK16_HUMAN\n - species: Homo sapiens\n - sequence: MQSDDVIWDTLGNKQFCSFKIRTKTQSFCRNEYSLTGLCNRSSCPLANSQYATIKEEKGQCYLYMKVIERAAFPRRLWERVRLSKNYEKALEQIDENLIYWPRFIRHKCKQRFTKITQYLIRIRKLTLKRQRKLVPLSKKVERREKRREEKALIAAQLDNAIEKELLERLKQDTYGDIYNFPIHAFDKALEQQEAESDSSDTEEKDDDDDDEEDVGKREFVEDGEVDESDISDFEDMDKLDASSDEDQDGKSSSEEEEEKALSAKHKGKMPLRGPLQRKRAYVEIEYEQETEPVAKAKTT\n ",
"role": "user"
},
{
"content": "Subcellular locations: Nucleus, Nucleolus",
"role": "assistant"
}
] |
KR134_MACFA
|
Macaca fascicularis
|
MSYNCCSGNFSSRSFGGYLHYPGCNPYSTALCSPSICQLGSSLYRNCQKTCWEPTSCRKSCYRRRTSMLCSPCQTTCSRSLGFGSSSCHSQGYGSRSCYSLGSGSSGFRFLKYGGCGFPSLSYGSRFCYPNYLASRAWQSSCYRPICGSRFYQFTC
|
In the hair cortex, hair keratin intermediate filaments are embedded in an interfilamentous matrix, consisting of hair keratin-associated proteins (KRTAP), which are essential for the formation of a rigid and resistant hair shaft through their extensive disulfide bond cross-linking with abundant cysteine residues of hair keratins. The matrix proteins include the high-sulfur and high-glycine-tyrosine keratins.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: KR134_MACFA\n - species: Macaca fascicularis\n - sequence: MSYNCCSGNFSSRSFGGYLHYPGCNPYSTALCSPSICQLGSSLYRNCQKTCWEPTSCRKSCYRRRTSMLCSPCQTTCSRSLGFGSSSCHSQGYGSRSCYSLGSGSSGFRFLKYGGCGFPSLSYGSRFCYPNYLASRAWQSSCYRPICGSRFYQFTC\n ",
"role": "user"
},
{
"content": "In the hair cortex, hair keratin intermediate filaments are embedded in an interfilamentous matrix, consisting of hair keratin-associated proteins (KRTAP), which are essential for the formation of a rigid and resistant hair shaft through their extensive disulfide bond cross-linking with abundant cysteine residues of hair keratins. The matrix proteins include the high-sulfur and high-glycine-tyrosine keratins.",
"role": "assistant"
}
] |
ZN266_HUMAN
|
Homo sapiens
|
MLENYKNLATVGYQLFKPSLISWLEQEESRTVQRGDFQASEWKVQLKTKELALQQDVLGEPTSSGIQMIGSHNGGEVSDVKQCGDVSSEHSCLKTHVRTQNSENTFECYLYGVDFLTLHKKTSTGEQRSVFSQCGKAFSLNPDVVCQRTCTGEKAFDCSDSGKSFINHSHLQGHLRTHNGESLHEWKECGRGFIHSTDLAVRIQTHRSEKPYKCKECGKGFRYSAYLNIHMGTHTGDNPYECKECGKAFTRSCQLTQHRKTHTGEKPYKCKDCGRAFTVSSCLSQHMKIHVGEKPYECKECGIAFTRSSQLTEHLKTHTAKDPFECKICGKSFRNSSCLSDHFRIHTGIKPYKCKDCGKAFTQNSDLTKHARTHSGERPYECKECGKAFARSSRLSEHTRTHTGEKPFECVKCGKAFAISSNLSGHLRIHTGEKPFECLECGKAFTHSSSLNNHMRTHSAKKPFTCMECGKAFKFPTCVNLHMRIHTGEKPYKCKQCGKSFSYSNSFQLHERTHTGEKPYECKECGKAFSSSSSFRNHERRHADERLSA
|
May be involved in transcriptional regulation.
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ZN266_HUMAN\n - species: Homo sapiens\n - sequence: MLENYKNLATVGYQLFKPSLISWLEQEESRTVQRGDFQASEWKVQLKTKELALQQDVLGEPTSSGIQMIGSHNGGEVSDVKQCGDVSSEHSCLKTHVRTQNSENTFECYLYGVDFLTLHKKTSTGEQRSVFSQCGKAFSLNPDVVCQRTCTGEKAFDCSDSGKSFINHSHLQGHLRTHNGESLHEWKECGRGFIHSTDLAVRIQTHRSEKPYKCKECGKGFRYSAYLNIHMGTHTGDNPYECKECGKAFTRSCQLTQHRKTHTGEKPYKCKDCGRAFTVSSCLSQHMKIHVGEKPYECKECGIAFTRSSQLTEHLKTHTAKDPFECKICGKSFRNSSCLSDHFRIHTGIKPYKCKDCGKAFTQNSDLTKHARTHSGERPYECKECGKAFARSSRLSEHTRTHTGEKPFECVKCGKAFAISSNLSGHLRIHTGEKPFECLECGKAFTHSSSLNNHMRTHSAKKPFTCMECGKAFKFPTCVNLHMRIHTGEKPYKCKQCGKSFSYSNSFQLHERTHTGEKPYECKECGKAFSSSSSFRNHERRHADERLSA\n ",
"role": "user"
},
{
"content": "May be involved in transcriptional regulation.\nSubcellular locations: Nucleus",
"role": "assistant"
}
] |
RT06_HUMAN
|
Homo sapiens
|
MPRYELALILKAMQRPETAATLKRTIEALMDRGAIVRDLENLGERALPYRISAHSQQHNRGGYFLVDFYAPTAAVESMVEHLSRDIDVIRGNIVKHPLTQELKECEGIVPVPLAEKLYSTKKRKK
|
Subcellular locations: Mitochondrion
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: RT06_HUMAN\n - species: Homo sapiens\n - sequence: MPRYELALILKAMQRPETAATLKRTIEALMDRGAIVRDLENLGERALPYRISAHSQQHNRGGYFLVDFYAPTAAVESMVEHLSRDIDVIRGNIVKHPLTQELKECEGIVPVPLAEKLYSTKKRKK\n ",
"role": "user"
},
{
"content": "Subcellular locations: Mitochondrion",
"role": "assistant"
}
] |
CEP83_HUMAN
|
Homo sapiens
|
MVVSTFTDMDTFPNNFPPGGDSGLTGSQSEFQKMLIDERLRCEHHKANYQTLKAEHTRLQNEHVKLQNELKHLFNEKQTQQEKLQLLLEELRGELVEKTKDLEEMKLQILTPQKLELLRAQIQQELETPMRERFRNLDEEVEKYRAVYNKLRYEHTFLKSEFEHQKEEYARILDEGKIKYESEIARLEEDKEELRNQLLNVDLTKDSKRVEQLAREKVYLCQKLKGLEAEVAELKAEKENSEAQVENAQRIQVRQLAEMQATVRSLEAEKQSANLRAERLEKELQSSSEQNTFLINKLHKAEREINTLSSKVKELKHSNKLEITDIKLETARAKSELERERNKIQSELDGLQSDNEILKAAVEHHKVLLVEKDRELIRKVQAAKEEGYQKLVVLQDEKLELENRLADLEKMKVEHDVWRQSEKDQYEEKLRASQMAEEITRKELQSVRLKLQQQIVTIENAEKEKNENSDLKQQISSLQIQVTSLAQSENDLLNSNQMLKEMVERLKQECRNFRSQAEKAQLEAEKTLEEKQIQWLEEKHKLHERITDREEKYNQAKEKLQRAAIAQKKRKSLHENKLKRLQEKVEVLEAKKEELETENQVLNRQNVPFEDYTRLQKRLKDIQRRHNEFRSLILVPNMPPTASINPVSFQSSAMVPSMELPFPPHMQEEQHQRELSLLRKRLEELETTQRKQLEELGSSGE
|
Component of the distal appendage region of the centriole involved in the initiation of primary cilium assembly. May collaborate with IFT20 in the trafficking of ciliary membrane proteins from the Golgi complex to the cilium during the initiation of primary cilium assembly.
Subcellular locations: Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Centriole
Localizes specifically to the distal appendage region of the centriole, which anchors the mother centriole to the plasma membrane. Localizes to centrioles at all stages of the cell cycle, including mitosis.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CEP83_HUMAN\n - species: Homo sapiens\n - sequence: MVVSTFTDMDTFPNNFPPGGDSGLTGSQSEFQKMLIDERLRCEHHKANYQTLKAEHTRLQNEHVKLQNELKHLFNEKQTQQEKLQLLLEELRGELVEKTKDLEEMKLQILTPQKLELLRAQIQQELETPMRERFRNLDEEVEKYRAVYNKLRYEHTFLKSEFEHQKEEYARILDEGKIKYESEIARLEEDKEELRNQLLNVDLTKDSKRVEQLAREKVYLCQKLKGLEAEVAELKAEKENSEAQVENAQRIQVRQLAEMQATVRSLEAEKQSANLRAERLEKELQSSSEQNTFLINKLHKAEREINTLSSKVKELKHSNKLEITDIKLETARAKSELERERNKIQSELDGLQSDNEILKAAVEHHKVLLVEKDRELIRKVQAAKEEGYQKLVVLQDEKLELENRLADLEKMKVEHDVWRQSEKDQYEEKLRASQMAEEITRKELQSVRLKLQQQIVTIENAEKEKNENSDLKQQISSLQIQVTSLAQSENDLLNSNQMLKEMVERLKQECRNFRSQAEKAQLEAEKTLEEKQIQWLEEKHKLHERITDREEKYNQAKEKLQRAAIAQKKRKSLHENKLKRLQEKVEVLEAKKEELETENQVLNRQNVPFEDYTRLQKRLKDIQRRHNEFRSLILVPNMPPTASINPVSFQSSAMVPSMELPFPPHMQEEQHQRELSLLRKRLEELETTQRKQLEELGSSGE\n ",
"role": "user"
},
{
"content": "Component of the distal appendage region of the centriole involved in the initiation of primary cilium assembly. May collaborate with IFT20 in the trafficking of ciliary membrane proteins from the Golgi complex to the cilium during the initiation of primary cilium assembly.\nSubcellular locations: Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Centriole\nLocalizes specifically to the distal appendage region of the centriole, which anchors the mother centriole to the plasma membrane. Localizes to centrioles at all stages of the cell cycle, including mitosis.",
"role": "assistant"
}
] |
T200A_HUMAN
|
Homo sapiens
|
MIATGGVITGLAALKRQDSARSQQHVNLSPSPATQEKKPIRRRPRADVVVVRGKIRLYSPSGFFLILGVLISIIGIAMAVLGYWPQKEHFIDAETTLSTNETQVIRNEGGVVVRFFEQHLHSDKMKMLGPFTMGIGIFIFICANAILHENRDKETKIIHMRDIYSTVIDIHTLRIKEQRQMNGMYTGLMGETEVKQNGSSCASRLAANTIASFSGFRSSFRMDSSVEEDELMLNEGKSSGHLMPPLLSDSSVSVFGLYPPPSKTTDDKTSGSKKCETKSIVSSSISAFTLPVIKLNNCVIDEPSIDNITEDADNLKSRSRNLSMDSLVVPLPNTSESFQPVSTVLPRNNSIGESLSSQYKSSMALGPGAGQLLSPGAARRQFGSNTSLHLLSSHSKSLDLDRGPSTLTVQAEQRKHPSWPRLDRNNSKGYMKLENKEDPMDRLLVPQVAIKKDFTNKEKLLMISRSHNNLSFEHDEFLSNNLKRGTSETRF
|
Subcellular locations: Membrane
Expressed in cerebellum.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: T200A_HUMAN\n - species: Homo sapiens\n - sequence: MIATGGVITGLAALKRQDSARSQQHVNLSPSPATQEKKPIRRRPRADVVVVRGKIRLYSPSGFFLILGVLISIIGIAMAVLGYWPQKEHFIDAETTLSTNETQVIRNEGGVVVRFFEQHLHSDKMKMLGPFTMGIGIFIFICANAILHENRDKETKIIHMRDIYSTVIDIHTLRIKEQRQMNGMYTGLMGETEVKQNGSSCASRLAANTIASFSGFRSSFRMDSSVEEDELMLNEGKSSGHLMPPLLSDSSVSVFGLYPPPSKTTDDKTSGSKKCETKSIVSSSISAFTLPVIKLNNCVIDEPSIDNITEDADNLKSRSRNLSMDSLVVPLPNTSESFQPVSTVLPRNNSIGESLSSQYKSSMALGPGAGQLLSPGAARRQFGSNTSLHLLSSHSKSLDLDRGPSTLTVQAEQRKHPSWPRLDRNNSKGYMKLENKEDPMDRLLVPQVAIKKDFTNKEKLLMISRSHNNLSFEHDEFLSNNLKRGTSETRF\n ",
"role": "user"
},
{
"content": "Subcellular locations: Membrane\nExpressed in cerebellum.",
"role": "assistant"
}
] |
ELAV2_PONAB
|
Pongo abelii
|
METQLSNGPTCNNTANGPTTINNNCSSPVDSGNTEDSKTNLIVNYLPQNMTQEELKSLFGSIGEIESCKLVRDKITGQSLGYGFVNYIDPKDAEKAINTLNGLRLQTKTIKVSYARPSSASIRDANLYVSGLPKTMTQKELEQLFSQYGRIITSRILVDQVTGISRGVGFIRFDKRIEAEEAIKGLNGQKPPGATEPITVKFANNPSQKTNQAILSQLYQSPNRRYPGPLAQQAQRFRLDNLLNMAYGVKRFSPMTIDGMTSLAGINIPGHPGTGWCIFVYNLAPDADESILWQMFGPFGAVTNVKVIRDFNTNKCKGFGFVTMTNYDEAAMAIASLNGYRLGDRVLQVSFKTNKTHKA
|
RNA-binding protein that binds to the 3' untranslated region (3'UTR) of target mRNAs (By similarity). Seems to recognize a GAAA motif (By similarity). Can bind to its own 3'UTR, the FOS 3'UTR and the ID 3'UTR (By similarity).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ELAV2_PONAB\n - species: Pongo abelii\n - sequence: METQLSNGPTCNNTANGPTTINNNCSSPVDSGNTEDSKTNLIVNYLPQNMTQEELKSLFGSIGEIESCKLVRDKITGQSLGYGFVNYIDPKDAEKAINTLNGLRLQTKTIKVSYARPSSASIRDANLYVSGLPKTMTQKELEQLFSQYGRIITSRILVDQVTGISRGVGFIRFDKRIEAEEAIKGLNGQKPPGATEPITVKFANNPSQKTNQAILSQLYQSPNRRYPGPLAQQAQRFRLDNLLNMAYGVKRFSPMTIDGMTSLAGINIPGHPGTGWCIFVYNLAPDADESILWQMFGPFGAVTNVKVIRDFNTNKCKGFGFVTMTNYDEAAMAIASLNGYRLGDRVLQVSFKTNKTHKA\n ",
"role": "user"
},
{
"content": "RNA-binding protein that binds to the 3' untranslated region (3'UTR) of target mRNAs (By similarity). Seems to recognize a GAAA motif (By similarity). Can bind to its own 3'UTR, the FOS 3'UTR and the ID 3'UTR (By similarity).",
"role": "assistant"
}
] |
CAH14_HUMAN
|
Homo sapiens
|
MLFSALLLEVIWILAADGGQHWTYEGPHGQDHWPASYPECGNNAQSPIDIQTDSVTFDPDLPALQPHGYDQPGTEPLDLHNNGHTVQLSLPSTLYLGGLPRKYVAAQLHLHWGQKGSPGGSEHQINSEATFAELHIVHYDSDSYDSLSEAAERPQGLAVLGILIEVGETKNIAYEHILSHLHEVRHKDQKTSVPPFNLRELLPKQLGQYFRYNGSLTTPPCYQSVLWTVFYRRSQISMEQLEKLQGTLFSTEEEPSKLLVQNYRALQPLNQRMVFASFIQAGSSYTTGEMLSLGVGILVGCLCLLLAVYFIARKIRKKRLENRKSVVFTSAQATTEA
|
Reversible hydration of carbon dioxide.
Subcellular locations: Membrane
High expression in all parts of the central nervous system and lower expression in adult liver, heart, small intestine, colon, kidney, urinary bladder and skeletal muscle.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CAH14_HUMAN\n - species: Homo sapiens\n - sequence: MLFSALLLEVIWILAADGGQHWTYEGPHGQDHWPASYPECGNNAQSPIDIQTDSVTFDPDLPALQPHGYDQPGTEPLDLHNNGHTVQLSLPSTLYLGGLPRKYVAAQLHLHWGQKGSPGGSEHQINSEATFAELHIVHYDSDSYDSLSEAAERPQGLAVLGILIEVGETKNIAYEHILSHLHEVRHKDQKTSVPPFNLRELLPKQLGQYFRYNGSLTTPPCYQSVLWTVFYRRSQISMEQLEKLQGTLFSTEEEPSKLLVQNYRALQPLNQRMVFASFIQAGSSYTTGEMLSLGVGILVGCLCLLLAVYFIARKIRKKRLENRKSVVFTSAQATTEA\n ",
"role": "user"
},
{
"content": "Reversible hydration of carbon dioxide.\nSubcellular locations: Membrane\nHigh expression in all parts of the central nervous system and lower expression in adult liver, heart, small intestine, colon, kidney, urinary bladder and skeletal muscle.",
"role": "assistant"
}
] |
NU5M_PONAB
|
Pongo abelii
|
MAMFTTMTALTLTSLIPPITATLINPNKKNSYPHYVKTAIASAFTISLIPTTMFICLGQETIVTNWCWTTTQTLQLSLSFKLDYFSMTFLPVALLITWSIMEFSLWYMASDPNINQFLKFLLIFLITMIILVTANNLLQLFIGWEGVGIMSFLLISWWYARTDANTAAIQAILYNRIGDIGFILALAWFLLHSNSWELQQVFLLNNNPNLLPLLGLLLAAAGKSAQLGLHPWLPSAMEGPTPVSALLHSSTMVVAGVFLLIRFHPLTENSPHIQTLTLCLGAITTLFAAICALTQNDIKKIVAFSTSSQLGLMMVTIGINQPHLALLHICTHAFFKALLFMCSGSIIHNLNNEQDIRKMGGLLKTMPLTSTSLTISSLALAGMPFLSGFYSKDLIIETANMSYTNTWALSITLIATSLTGAYSTRMILHTLTSKPHFPTPISINENNPTLLKPIKRLMLGSLFAGFLITNNIPPMSLPQVTTPPYLKLAALAATLLGLLVALDLNYLANKLKTKTPPPTFYFSIMLGFYPSIIHRMIPHLSLLMSQNLSLLLLDLTWLKKLMPKTISQHQTSASITISTQKGLIKLYFLSFLIPLLLILLMIS
|
Core subunit of the mitochondrial membrane respiratory chain NADH dehydrogenase (Complex I) which catalyzes electron transfer from NADH through the respiratory chain, using ubiquinone as an electron acceptor. Essential for the catalytic activity and assembly of complex I.
Subcellular locations: Mitochondrion inner membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: NU5M_PONAB\n - species: Pongo abelii\n - sequence: MAMFTTMTALTLTSLIPPITATLINPNKKNSYPHYVKTAIASAFTISLIPTTMFICLGQETIVTNWCWTTTQTLQLSLSFKLDYFSMTFLPVALLITWSIMEFSLWYMASDPNINQFLKFLLIFLITMIILVTANNLLQLFIGWEGVGIMSFLLISWWYARTDANTAAIQAILYNRIGDIGFILALAWFLLHSNSWELQQVFLLNNNPNLLPLLGLLLAAAGKSAQLGLHPWLPSAMEGPTPVSALLHSSTMVVAGVFLLIRFHPLTENSPHIQTLTLCLGAITTLFAAICALTQNDIKKIVAFSTSSQLGLMMVTIGINQPHLALLHICTHAFFKALLFMCSGSIIHNLNNEQDIRKMGGLLKTMPLTSTSLTISSLALAGMPFLSGFYSKDLIIETANMSYTNTWALSITLIATSLTGAYSTRMILHTLTSKPHFPTPISINENNPTLLKPIKRLMLGSLFAGFLITNNIPPMSLPQVTTPPYLKLAALAATLLGLLVALDLNYLANKLKTKTPPPTFYFSIMLGFYPSIIHRMIPHLSLLMSQNLSLLLLDLTWLKKLMPKTISQHQTSASITISTQKGLIKLYFLSFLIPLLLILLMIS\n ",
"role": "user"
},
{
"content": "Core subunit of the mitochondrial membrane respiratory chain NADH dehydrogenase (Complex I) which catalyzes electron transfer from NADH through the respiratory chain, using ubiquinone as an electron acceptor. Essential for the catalytic activity and assembly of complex I.\nSubcellular locations: Mitochondrion inner membrane",
"role": "assistant"
}
] |
ADCK2_HUMAN
|
Homo sapiens
|
MVAPWRVSVRVCLSHLRCFELRQGLSLLRPSECPRDARLCWLLLGTLPKVVSLCGDVGEGAPDVLSRRRVRCSGAAGAGPAESLPRAGPLGGVFLHLRLWLRAGALLVKFFPLLLLYPLTYLAPSVSTLWLHLLLKATETSGPTYIKLGQWASTRRDLFSEAFCAQFSKLHVRVTPHPWTHTERFLRQAFGDDWGSILSFENREPVGSGCVAQVYKAYANTAFLETDSVQRLGRASCLPPFSHTGAVGGLRELFGYLGNGRKPPENLADQSFLERLLLPKADLVGSNAGVSRAQVPGHQPEATNLISVAVKVLHPGLLAQVHMDLLLMKIGSRVLGVLPGIKWLSLPEIVEEFEKLMVQQIDLRYEAQNLEHFQVNFRNVKAVKFPTPLRPFVTREVLVETYEESVPVSSYQQAGIPVDLKRKIARLGINMLLKMIFVDNFVHADLHPGNILVQGANGLSSSQEAQLQQADICDTLVVAVPSSLCPLRLVLLDAGIVAELQAPDLRNFRAVFMAVVMGQGQRVAELILHHARASECRDVEGFKTEMAMLVTQARKNTITLEKLHVSSLLSSVFKLLMTHKVKLESNFASIVFAIMVLEGLGRSLDPKLDILEAARPFLLTGPVCPP
|
The function of this protein is not yet clear. It is not known if it has protein kinase activity and what type of substrate it would phosphorylate (Ser, Thr or Tyr) (Probable). Involved in the mitochondrial import of CoQ precursors, plays a role in muscle mitochondrial function and fatty acid beta-oxidation .
Subcellular locations: Mitochondrion, Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ADCK2_HUMAN\n - species: Homo sapiens\n - sequence: MVAPWRVSVRVCLSHLRCFELRQGLSLLRPSECPRDARLCWLLLGTLPKVVSLCGDVGEGAPDVLSRRRVRCSGAAGAGPAESLPRAGPLGGVFLHLRLWLRAGALLVKFFPLLLLYPLTYLAPSVSTLWLHLLLKATETSGPTYIKLGQWASTRRDLFSEAFCAQFSKLHVRVTPHPWTHTERFLRQAFGDDWGSILSFENREPVGSGCVAQVYKAYANTAFLETDSVQRLGRASCLPPFSHTGAVGGLRELFGYLGNGRKPPENLADQSFLERLLLPKADLVGSNAGVSRAQVPGHQPEATNLISVAVKVLHPGLLAQVHMDLLLMKIGSRVLGVLPGIKWLSLPEIVEEFEKLMVQQIDLRYEAQNLEHFQVNFRNVKAVKFPTPLRPFVTREVLVETYEESVPVSSYQQAGIPVDLKRKIARLGINMLLKMIFVDNFVHADLHPGNILVQGANGLSSSQEAQLQQADICDTLVVAVPSSLCPLRLVLLDAGIVAELQAPDLRNFRAVFMAVVMGQGQRVAELILHHARASECRDVEGFKTEMAMLVTQARKNTITLEKLHVSSLLSSVFKLLMTHKVKLESNFASIVFAIMVLEGLGRSLDPKLDILEAARPFLLTGPVCPP\n ",
"role": "user"
},
{
"content": "The function of this protein is not yet clear. It is not known if it has protein kinase activity and what type of substrate it would phosphorylate (Ser, Thr or Tyr) (Probable). Involved in the mitochondrial import of CoQ precursors, plays a role in muscle mitochondrial function and fatty acid beta-oxidation .\nSubcellular locations: Mitochondrion, Membrane",
"role": "assistant"
}
] |
CCR5_MANLE
|
Mandrillus leucophaeus
|
MDYQVSSPTYDIDYYTSEPCQKINVKQIAARLLPPLYSLVFIFGFVGNILVVLILINCKRLKSMTDIYLLNLAISDLLFLLTVPFWAHYAAAQWDFGNIMCQLLTGLYFIGFFSGIFFIILLTIDRYLAIVHAVFALKARTVTFGVVTSVITWVVAVFASLPGIIFTRSQREGLHYTCSSHFPYSQYQFWKNFRTLKIVILGLVLPLLVMVICYSGILKTLLRCRNEKKRHRAVRLIFTIMIVYFLFWAPYNIVLLLNTFQEFFGLNNCSSSNRLDQAMQVTETLGMTHCCINPIIYAFVGEKFRNYLLVFFQKHIAKRFCKCCSIFQQEAPERASSVYTRTTGEQEISVGL
|
Receptor for a number of inflammatory CC-chemokines including CCL3/MIP-1-alpha, CCL4/MIP-1-beta and RANTES and subsequently transduces a signal by increasing the intracellular calcium ion level. May play a role in the control of granulocytic lineage proliferation or differentiation. Participates in T-lymphocyte migration to the infection site by acting as a chemotactic receptor.
Subcellular locations: Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CCR5_MANLE\n - species: Mandrillus leucophaeus\n - sequence: MDYQVSSPTYDIDYYTSEPCQKINVKQIAARLLPPLYSLVFIFGFVGNILVVLILINCKRLKSMTDIYLLNLAISDLLFLLTVPFWAHYAAAQWDFGNIMCQLLTGLYFIGFFSGIFFIILLTIDRYLAIVHAVFALKARTVTFGVVTSVITWVVAVFASLPGIIFTRSQREGLHYTCSSHFPYSQYQFWKNFRTLKIVILGLVLPLLVMVICYSGILKTLLRCRNEKKRHRAVRLIFTIMIVYFLFWAPYNIVLLLNTFQEFFGLNNCSSSNRLDQAMQVTETLGMTHCCINPIIYAFVGEKFRNYLLVFFQKHIAKRFCKCCSIFQQEAPERASSVYTRTTGEQEISVGL\n ",
"role": "user"
},
{
"content": "Receptor for a number of inflammatory CC-chemokines including CCL3/MIP-1-alpha, CCL4/MIP-1-beta and RANTES and subsequently transduces a signal by increasing the intracellular calcium ion level. May play a role in the control of granulocytic lineage proliferation or differentiation. Participates in T-lymphocyte migration to the infection site by acting as a chemotactic receptor.\nSubcellular locations: Cell membrane",
"role": "assistant"
}
] |
MMP20_HUMAN
|
Homo sapiens
|
MKVLPASGLAVFLIMALKFSTAAPSLVAASPRTWRNNYRLAQAYLDKYYTNKEGHQIGEMVARGSNSMIRKIKELQAFFGLQVTGKLDQTTMNVIKKPRCGVPDVANYRLFPGEPKWKKNTLTYRISKYTPSMSSVEVDKAVEMALQAWSSAVPLSFVRINSGEADIMISFENGDHGDSYPFDGPRGTLAHAFAPGEGLGGDTHFDNAEKWTMGTNGFNLFTVAAHEFGHALGLAHSTDPSALMYPTYKYKNPYGFHLPKDDVKGIQALYGPRKVFLGKPTLPHAPHHKPSIPDLCDSSSSFDAVTMLGKELLLFKDRIFWRRQVHLRTGIRPSTITSSFPQLMSNVDAAYEVAERGTAYFFKGPHYWITRGFQMQGPPRTIYDFGFPRHVQQIDAAVYLREPQKTLFFVGDEYYSYDERKRKMEKDYPKNTEEEFSGVNGQIDAAVELNGYIYFFSGPKTYKYDTEKEDVVSVVKSSSWIGC
|
Degrades amelogenin, the major protein component of the enamel matrix and two of the macromolecules characterizing the cartilage extracellular matrix: aggrecan and the cartilage oligomeric matrix protein (COMP). May play a central role in tooth enamel formation. Cleaves aggrecan at the '360-Asn-|-Phe-361' site.
Subcellular locations: Secreted, Extracellular space, Extracellular matrix
Expressed specifically in the enamel organ.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MMP20_HUMAN\n - species: Homo sapiens\n - sequence: MKVLPASGLAVFLIMALKFSTAAPSLVAASPRTWRNNYRLAQAYLDKYYTNKEGHQIGEMVARGSNSMIRKIKELQAFFGLQVTGKLDQTTMNVIKKPRCGVPDVANYRLFPGEPKWKKNTLTYRISKYTPSMSSVEVDKAVEMALQAWSSAVPLSFVRINSGEADIMISFENGDHGDSYPFDGPRGTLAHAFAPGEGLGGDTHFDNAEKWTMGTNGFNLFTVAAHEFGHALGLAHSTDPSALMYPTYKYKNPYGFHLPKDDVKGIQALYGPRKVFLGKPTLPHAPHHKPSIPDLCDSSSSFDAVTMLGKELLLFKDRIFWRRQVHLRTGIRPSTITSSFPQLMSNVDAAYEVAERGTAYFFKGPHYWITRGFQMQGPPRTIYDFGFPRHVQQIDAAVYLREPQKTLFFVGDEYYSYDERKRKMEKDYPKNTEEEFSGVNGQIDAAVELNGYIYFFSGPKTYKYDTEKEDVVSVVKSSSWIGC\n ",
"role": "user"
},
{
"content": "Degrades amelogenin, the major protein component of the enamel matrix and two of the macromolecules characterizing the cartilage extracellular matrix: aggrecan and the cartilage oligomeric matrix protein (COMP). May play a central role in tooth enamel formation. Cleaves aggrecan at the '360-Asn-|-Phe-361' site.\nSubcellular locations: Secreted, Extracellular space, Extracellular matrix\nExpressed specifically in the enamel organ.",
"role": "assistant"
}
] |
MAP2_HUMAN
|
Homo sapiens
|
MAGVEEVAASGSHLNGDLDPDDREEGAASTAEEAAKKKRRKKKKSKGPSAAGEQEPDKESGASVDEVARQLERSALEDKERDEDDEDGDGDGDGATGKKKKKKKKKRGPKVQTDPPSVPICDLYPNGVFPKGQECEYPPTQDGRTAAWRTTSEEKKALDQASEEIWNDFREAAEAHRQVRKYVMSWIKPGMTMIEICEKLEDCSRKLIKENGLNAGLAFPTGCSLNNCAAHYTPNAGDTTVLQYDDICKIDFGTHISGRIIDCAFTVTFNPKYDTLLKAVKDATNTGIKCAGIDVRLCDVGEAIQEVMESYEVEIDGKTYQVKPIRNLNGHSIGQYRIHAGKTVPIVKGGEATRMEEGEVYAIETFGSTGKGVVHDDMECSHYMKNFDVGHVPIRLPRTKHLLNVINENFGTLAFCRRWLDRLGESKYLMALKNLCDLGIVDPYPPLCDIKGSYTAQFEHTILLRPTCKEVVSRGDDY
|
Cotranslationally removes the N-terminal methionine from nascent proteins. The N-terminal methionine is often cleaved when the second residue in the primary sequence is small and uncharged (Met-Ala-, Cys, Gly, Pro, Ser, Thr, or Val). The catalytic activity of human METAP2 toward Met-Val peptides is consistently two orders of magnitude higher than that of METAP1, suggesting that it is responsible for processing proteins containing N-terminal Met-Val and Met-Thr sequences in vivo.
Protects eukaryotic initiation factor EIF2S1 from translation-inhibiting phosphorylation by inhibitory kinases such as EIF2AK2/PKR and EIF2AK1/HCR. Plays a critical role in the regulation of protein synthesis.
Subcellular locations: Cytoplasm
About 30% of expressed METAP2 associates with polysomes.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MAP2_HUMAN\n - species: Homo sapiens\n - sequence: MAGVEEVAASGSHLNGDLDPDDREEGAASTAEEAAKKKRRKKKKSKGPSAAGEQEPDKESGASVDEVARQLERSALEDKERDEDDEDGDGDGDGATGKKKKKKKKKRGPKVQTDPPSVPICDLYPNGVFPKGQECEYPPTQDGRTAAWRTTSEEKKALDQASEEIWNDFREAAEAHRQVRKYVMSWIKPGMTMIEICEKLEDCSRKLIKENGLNAGLAFPTGCSLNNCAAHYTPNAGDTTVLQYDDICKIDFGTHISGRIIDCAFTVTFNPKYDTLLKAVKDATNTGIKCAGIDVRLCDVGEAIQEVMESYEVEIDGKTYQVKPIRNLNGHSIGQYRIHAGKTVPIVKGGEATRMEEGEVYAIETFGSTGKGVVHDDMECSHYMKNFDVGHVPIRLPRTKHLLNVINENFGTLAFCRRWLDRLGESKYLMALKNLCDLGIVDPYPPLCDIKGSYTAQFEHTILLRPTCKEVVSRGDDY\n ",
"role": "user"
},
{
"content": "Cotranslationally removes the N-terminal methionine from nascent proteins. The N-terminal methionine is often cleaved when the second residue in the primary sequence is small and uncharged (Met-Ala-, Cys, Gly, Pro, Ser, Thr, or Val). The catalytic activity of human METAP2 toward Met-Val peptides is consistently two orders of magnitude higher than that of METAP1, suggesting that it is responsible for processing proteins containing N-terminal Met-Val and Met-Thr sequences in vivo.\nProtects eukaryotic initiation factor EIF2S1 from translation-inhibiting phosphorylation by inhibitory kinases such as EIF2AK2/PKR and EIF2AK1/HCR. Plays a critical role in the regulation of protein synthesis.\nSubcellular locations: Cytoplasm\nAbout 30% of expressed METAP2 associates with polysomes.",
"role": "assistant"
}
] |
UB2Q1_HUMAN
|
Homo sapiens
|
MQQPQPQGQQQPGPGQQLGGQGAAPGAGGGPGGGPGPGPCLRRELKLLESIFHRGHERFRIASACLDELSCEFLLAGAGGAGAGAAPGPHLPPRGSVPGDPVRIHCNITESYPAVPPIWSVESDDPNLAAVLERLVDIKKGNTLLLQHLKRIISDLCKLYNLPQHPDVEMLDQPLPAEQCTQEDVSSEDEDEEMPEDTEDLDHYEMKEEEPAEGKKSEDDGIGKENLAILEKIKKNQRQDYLNGAVSGSVQATDRLMKELRDIYRSQSFKGGNYAVELVNDSLYDWNVKLLKVDQDSALHNDLQILKEKEGADFILLNFSFKDNFPFDPPFVRVVSPVLSGGYVLGGGAICMELLTKQGWSSAYSIESVIMQISATLVKGKARVQFGANKSQYSLTRAQQSYKSLVQIHEKNGWYTPPKEDG
|
Catalyzes the covalent attachment of ubiquitin to other proteins . May be involved in hormonal homeostasis in females. Involved in regulation of B4GALT1 cell surface expression, B4GALT1-mediated cell adhesion to laminin and embryoid body formation (By similarity).
Subcellular locations: Nucleus, Cell projection, Filopodium, Cytoplasm, Cytosol
Widely expressed.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: UB2Q1_HUMAN\n - species: Homo sapiens\n - sequence: MQQPQPQGQQQPGPGQQLGGQGAAPGAGGGPGGGPGPGPCLRRELKLLESIFHRGHERFRIASACLDELSCEFLLAGAGGAGAGAAPGPHLPPRGSVPGDPVRIHCNITESYPAVPPIWSVESDDPNLAAVLERLVDIKKGNTLLLQHLKRIISDLCKLYNLPQHPDVEMLDQPLPAEQCTQEDVSSEDEDEEMPEDTEDLDHYEMKEEEPAEGKKSEDDGIGKENLAILEKIKKNQRQDYLNGAVSGSVQATDRLMKELRDIYRSQSFKGGNYAVELVNDSLYDWNVKLLKVDQDSALHNDLQILKEKEGADFILLNFSFKDNFPFDPPFVRVVSPVLSGGYVLGGGAICMELLTKQGWSSAYSIESVIMQISATLVKGKARVQFGANKSQYSLTRAQQSYKSLVQIHEKNGWYTPPKEDG\n ",
"role": "user"
},
{
"content": "Catalyzes the covalent attachment of ubiquitin to other proteins . May be involved in hormonal homeostasis in females. Involved in regulation of B4GALT1 cell surface expression, B4GALT1-mediated cell adhesion to laminin and embryoid body formation (By similarity).\nSubcellular locations: Nucleus, Cell projection, Filopodium, Cytoplasm, Cytosol\nWidely expressed.",
"role": "assistant"
}
] |
PKHM1_HUMAN
|
Homo sapiens
|
MLSVVENGLDPQAAIPVIKKKLVGSVKALQKQYVSLDTVVTSEDGDANTMCSALEAVFIHGLHAKHIRAEAGGKRKKSAHQKPLPQPVFWPLLKAVTHKHIISELEHLTFVNTDVGRCRAWLRLALNDGLMECYLKLLLQEQARLHEYYQPTALLRDAEEGEFLLSFLQGLTSLSFELSYKSAILNEWTLTPLALSGLCPLSELDPLSTSGAELQRKESLDSISHSSGSEDIEVHHSGHKIRRNQKLTASSLSLDTASSSQLSCSLNSDSCLLQENGSKSPDHCEEPMSCDSDLGTANAEDSDRSLQEVLLEFSKAQVNSVPTNGLSQETEIPTPQASLSLHGLNTSTYLHCEAPAEPLPAQAASGTQDGVHVQEPRPQAPSPLDLQQPVESTSGQQPSSTVSETAREVGQGNGLQKAQAHDGAGLKLVVSSPTSPKNKSWISEDDFYRPSREQPLESASDHPIASYRGTPGSRPGLHRHFSQEPRKNCSLGALDQACVPSPGRRQAQAAPSQGHKSFRVVHRRQMGLSNPFRGLMKLGTVERRGAMGIWKELFCELSPLEFRLYLSNEEHTCVENCSLLRCESVGPAHSDGRFELVFSGKKLALRASSQDEAEDWLDRVREALQKVRPQQEDEWVNVQYPDQPEEPPEAPQGCLSPSDLLSEPAALQGTQFDWSSAQVPEPDAIKESLLYLYMDRTWMPYIFSLSLEALKCFRIRNNEKMLSDSHGVETIRDILPDTSLGGPSFFKIITAKAVLKLQAGNAEEAALWRDLVRKVLASYLETAEEAVTLGGSLDENCQEVLKFATRENGFLLQYLVAIPMEKGLDSQGCFCAGCSRQIGFSFVRPKLCAFSGLYYCDICHQDDASVIPARIIHNWDLTKRPICRQALKFLTQIRAQPLINLQMVNASLYEHVERMHLIGRRREQLKLLGDYLGLCRSGALKELSKRLNHRNYLLESPHRFSVADLQQIADGVYEGFLKALIEFASQHVYHCDLCTQRGFICQICQHHDIIFPFEFDTTVRCAECKTVFHQSCQAVVKKGCPRCARRRKYQEQNIFA
|
Acts as a multivalent adapter protein that regulates Rab7-dependent and HOPS complex-dependent fusion events in the endolysosomal system and couples autophagic and the endocytic trafficking pathways. Acts as a dual effector of RAB7A and ARL8B that simultaneously binds these GTPases, bringing about clustering and fusion of late endosomes and lysosomes (, ). Required for late stages of endolysosomal maturation, facilitating both endocytosis-mediated degradation of growth factor receptors and autophagosome clearance. Interaction with Arl8b is a crucial factor in the terminal maturation of autophagosomes and to mediate autophagosome-lysosome fusion . Positively regulates lysosome peripheral distribution and ruffled border formation in osteoclasts (By similarity). May be involved in negative regulation of endocytic transport from early endosome to late endosome/lysosome implicating its association with Rab7 . May have a role in sialyl-lex-mediated transduction of apoptotic signals . Involved in bone resorption (By similarity).
(Microbial infection) In case of infection contributes to Salmonella typhimurium pathogenesis by supporting the integrity of the Salmonella-containing vacuole (SCV) probably in concert with the HOPS complex and Rab7.
Subcellular locations: Autolysosome membrane, Endosome membrane, Late endosome membrane, Lysosome membrane
In case of infection colocalizes with Salmonella typhimurium sifA in proximity of Salmonella-containing vacuole (SCV) .
Expressed in placenta, liver, prostate, thymus, spleen, ovary, colon, colon carcinoma and peripheral blood lymphocytes (PBL). Weakly expressed in brain, lung, kidney, and testis. No expression in heart, skeletal muscle, pancreas and small intestine. Predominantly expressed in the breast carcinoma cell line MCF-7.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PKHM1_HUMAN\n - species: Homo sapiens\n - sequence: MLSVVENGLDPQAAIPVIKKKLVGSVKALQKQYVSLDTVVTSEDGDANTMCSALEAVFIHGLHAKHIRAEAGGKRKKSAHQKPLPQPVFWPLLKAVTHKHIISELEHLTFVNTDVGRCRAWLRLALNDGLMECYLKLLLQEQARLHEYYQPTALLRDAEEGEFLLSFLQGLTSLSFELSYKSAILNEWTLTPLALSGLCPLSELDPLSTSGAELQRKESLDSISHSSGSEDIEVHHSGHKIRRNQKLTASSLSLDTASSSQLSCSLNSDSCLLQENGSKSPDHCEEPMSCDSDLGTANAEDSDRSLQEVLLEFSKAQVNSVPTNGLSQETEIPTPQASLSLHGLNTSTYLHCEAPAEPLPAQAASGTQDGVHVQEPRPQAPSPLDLQQPVESTSGQQPSSTVSETAREVGQGNGLQKAQAHDGAGLKLVVSSPTSPKNKSWISEDDFYRPSREQPLESASDHPIASYRGTPGSRPGLHRHFSQEPRKNCSLGALDQACVPSPGRRQAQAAPSQGHKSFRVVHRRQMGLSNPFRGLMKLGTVERRGAMGIWKELFCELSPLEFRLYLSNEEHTCVENCSLLRCESVGPAHSDGRFELVFSGKKLALRASSQDEAEDWLDRVREALQKVRPQQEDEWVNVQYPDQPEEPPEAPQGCLSPSDLLSEPAALQGTQFDWSSAQVPEPDAIKESLLYLYMDRTWMPYIFSLSLEALKCFRIRNNEKMLSDSHGVETIRDILPDTSLGGPSFFKIITAKAVLKLQAGNAEEAALWRDLVRKVLASYLETAEEAVTLGGSLDENCQEVLKFATRENGFLLQYLVAIPMEKGLDSQGCFCAGCSRQIGFSFVRPKLCAFSGLYYCDICHQDDASVIPARIIHNWDLTKRPICRQALKFLTQIRAQPLINLQMVNASLYEHVERMHLIGRRREQLKLLGDYLGLCRSGALKELSKRLNHRNYLLESPHRFSVADLQQIADGVYEGFLKALIEFASQHVYHCDLCTQRGFICQICQHHDIIFPFEFDTTVRCAECKTVFHQSCQAVVKKGCPRCARRRKYQEQNIFA\n ",
"role": "user"
},
{
"content": "Acts as a multivalent adapter protein that regulates Rab7-dependent and HOPS complex-dependent fusion events in the endolysosomal system and couples autophagic and the endocytic trafficking pathways. Acts as a dual effector of RAB7A and ARL8B that simultaneously binds these GTPases, bringing about clustering and fusion of late endosomes and lysosomes (, ). Required for late stages of endolysosomal maturation, facilitating both endocytosis-mediated degradation of growth factor receptors and autophagosome clearance. Interaction with Arl8b is a crucial factor in the terminal maturation of autophagosomes and to mediate autophagosome-lysosome fusion . Positively regulates lysosome peripheral distribution and ruffled border formation in osteoclasts (By similarity). May be involved in negative regulation of endocytic transport from early endosome to late endosome/lysosome implicating its association with Rab7 . May have a role in sialyl-lex-mediated transduction of apoptotic signals . Involved in bone resorption (By similarity).\n(Microbial infection) In case of infection contributes to Salmonella typhimurium pathogenesis by supporting the integrity of the Salmonella-containing vacuole (SCV) probably in concert with the HOPS complex and Rab7.\nSubcellular locations: Autolysosome membrane, Endosome membrane, Late endosome membrane, Lysosome membrane\nIn case of infection colocalizes with Salmonella typhimurium sifA in proximity of Salmonella-containing vacuole (SCV) .\nExpressed in placenta, liver, prostate, thymus, spleen, ovary, colon, colon carcinoma and peripheral blood lymphocytes (PBL). Weakly expressed in brain, lung, kidney, and testis. No expression in heart, skeletal muscle, pancreas and small intestine. Predominantly expressed in the breast carcinoma cell line MCF-7.",
"role": "assistant"
}
] |
ZNG1C_HUMAN
|
Homo sapiens
|
MLPAVGSVDEEEDPAEEDCPELVPIETTQSEEEEKSGLGAKIPVTIITGYLGAGKTTLLNYILTEQHSKRVAVILNESGEGSALEKSLAVSQGGELYEEWLELRNGCLCCSVKDNGLRAIENLMQKKGKFDDILLETTGLADPGAVASMFWVDAELGSDIYLDGIITIVDSKYGLKHLTEEKPDGLINEATRQVALADIILINKTDLVPEEDVKKLRTTIRSINGLGQILETQRSRVDLSNVLDLHAFDSLSGISLQKKLQHVPGTQPHLDQSIVTITFEVPGNAKEEHLNMFIQNLLWEKNVRNKDNHCMEVIRLKGLVSIKDKSQQVIVQGVHELYDLEETPVSWKDDTERTNRLVLIGRNLDKDILKQLFIATVTETEKQWTTHFKEDQVCT
|
Zinc chaperone that directly transfers zinc cofactor to target metalloproteins, thereby activating them. Catalyzes zinc insertion into the active site of methionine aminopeptidase METAP1, which function to cleave the initiator methionine from polypeptides during or after protein translation. Mechanistically, the N-terminal psi-PxLVp motif binds to the C6H2-type zinc finger of inactive form of METAP1. After formation of the docked complex, zinc is transferred from the CXCC motif in the GTPase domain of ZNG1C to the zinc binding site in the peptidase domain of METAP1 in a process requiring GTP hydrolysis. GTP/GDP exchange is required for release of active METAP1.
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ZNG1C_HUMAN\n - species: Homo sapiens\n - sequence: MLPAVGSVDEEEDPAEEDCPELVPIETTQSEEEEKSGLGAKIPVTIITGYLGAGKTTLLNYILTEQHSKRVAVILNESGEGSALEKSLAVSQGGELYEEWLELRNGCLCCSVKDNGLRAIENLMQKKGKFDDILLETTGLADPGAVASMFWVDAELGSDIYLDGIITIVDSKYGLKHLTEEKPDGLINEATRQVALADIILINKTDLVPEEDVKKLRTTIRSINGLGQILETQRSRVDLSNVLDLHAFDSLSGISLQKKLQHVPGTQPHLDQSIVTITFEVPGNAKEEHLNMFIQNLLWEKNVRNKDNHCMEVIRLKGLVSIKDKSQQVIVQGVHELYDLEETPVSWKDDTERTNRLVLIGRNLDKDILKQLFIATVTETEKQWTTHFKEDQVCT\n ",
"role": "user"
},
{
"content": "Zinc chaperone that directly transfers zinc cofactor to target metalloproteins, thereby activating them. Catalyzes zinc insertion into the active site of methionine aminopeptidase METAP1, which function to cleave the initiator methionine from polypeptides during or after protein translation. Mechanistically, the N-terminal psi-PxLVp motif binds to the C6H2-type zinc finger of inactive form of METAP1. After formation of the docked complex, zinc is transferred from the CXCC motif in the GTPase domain of ZNG1C to the zinc binding site in the peptidase domain of METAP1 in a process requiring GTP hydrolysis. GTP/GDP exchange is required for release of active METAP1.\nSubcellular locations: Nucleus",
"role": "assistant"
}
] |
GALR3_HUMAN
|
Homo sapiens
|
MADAQNISLDSPGSVGAVAVPVVFALIFLLGTVGNGLVLAVLLQPGPSAWQEPGSTTDLFILNLAVADLCFILCCVPFQATIYTLDAWLFGALVCKAVHLLIYLTMYASSFTLAAVSVDRYLAVRHPLRSRALRTPRNARAAVGLVWLLAALFSAPYLSYYGTVRYGALELCVPAWEDARRRALDVATFAAGYLLPVAVVSLAYGRTLRFLWAAVGPAGAAAAEARRRATGRAGRAMLAVAALYALCWGPHHALILCFWYGRFAFSPATYACRLASHCLAYANSCLNPLVYALASRHFRARFRRLWPCGRRRRHRARRALRRVRPASSGPPGCPGDARPSGRLLAGGGQGPEPREGPVHGGEAARGPE
|
Receptor for the hormone galanin . Receptor for the hormone spexin-1 .
Subcellular locations: Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: GALR3_HUMAN\n - species: Homo sapiens\n - sequence: MADAQNISLDSPGSVGAVAVPVVFALIFLLGTVGNGLVLAVLLQPGPSAWQEPGSTTDLFILNLAVADLCFILCCVPFQATIYTLDAWLFGALVCKAVHLLIYLTMYASSFTLAAVSVDRYLAVRHPLRSRALRTPRNARAAVGLVWLLAALFSAPYLSYYGTVRYGALELCVPAWEDARRRALDVATFAAGYLLPVAVVSLAYGRTLRFLWAAVGPAGAAAAEARRRATGRAGRAMLAVAALYALCWGPHHALILCFWYGRFAFSPATYACRLASHCLAYANSCLNPLVYALASRHFRARFRRLWPCGRRRRHRARRALRRVRPASSGPPGCPGDARPSGRLLAGGGQGPEPREGPVHGGEAARGPE\n ",
"role": "user"
},
{
"content": "Receptor for the hormone galanin . Receptor for the hormone spexin-1 .\nSubcellular locations: Cell membrane",
"role": "assistant"
}
] |
HV169_HUMAN
|
Homo sapiens
|
MDWTWRFLFVVAAATGVQSQVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAR
|
V region of the variable domain of immunoglobulin heavy chains that participates in the antigen recognition . Immunoglobulins, also known as antibodies, are membrane-bound or secreted glycoproteins produced by B lymphocytes. In the recognition phase of humoral immunity, the membrane-bound immunoglobulins serve as receptors which, upon binding of a specific antigen, trigger the clonal expansion and differentiation of B lymphocytes into immunoglobulins-secreting plasma cells. Secreted immunoglobulins mediate the effector phase of humoral immunity, which results in the elimination of bound antigens (, ). The antigen binding site is formed by the variable domain of one heavy chain, together with that of its associated light chain. Thus, each immunoglobulin has two antigen binding sites with remarkable affinity for a particular antigen. The variable domains are assembled by a process called V-(D)-J rearrangement and can then be subjected to somatic hypermutations which, after exposure to antigen and selection, allow affinity maturation for a particular antigen (, ).
Subcellular locations: Secreted, Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HV169_HUMAN\n - species: Homo sapiens\n - sequence: MDWTWRFLFVVAAATGVQSQVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAR\n ",
"role": "user"
},
{
"content": "V region of the variable domain of immunoglobulin heavy chains that participates in the antigen recognition . Immunoglobulins, also known as antibodies, are membrane-bound or secreted glycoproteins produced by B lymphocytes. In the recognition phase of humoral immunity, the membrane-bound immunoglobulins serve as receptors which, upon binding of a specific antigen, trigger the clonal expansion and differentiation of B lymphocytes into immunoglobulins-secreting plasma cells. Secreted immunoglobulins mediate the effector phase of humoral immunity, which results in the elimination of bound antigens (, ). The antigen binding site is formed by the variable domain of one heavy chain, together with that of its associated light chain. Thus, each immunoglobulin has two antigen binding sites with remarkable affinity for a particular antigen. The variable domains are assembled by a process called V-(D)-J rearrangement and can then be subjected to somatic hypermutations which, after exposure to antigen and selection, allow affinity maturation for a particular antigen (, ).\nSubcellular locations: Secreted, Cell membrane",
"role": "assistant"
}
] |
MED30_HUMAN
|
Homo sapiens
|
MSTPPLAASGMAPGPFAGPQAQQAAREVNTASLCRIGQETVQDIVYRTMEIFQLLRNMQLPNGVTYHTGTYQDRLTKLQDNLRQLSVLFRKLRLVYDKCNENCGGMDPIPVEQLIPYVEEDGSKNDDRAGPPRFASEERREIAEVNKKLKQKNQQLKQIMDQLRNLIWDINAMLAMRN
|
Component of the Mediator complex, a coactivator involved in the regulated transcription of nearly all RNA polymerase II-dependent genes. Mediator functions as a bridge to convey information from gene-specific regulatory proteins to the basal RNA polymerase II transcription machinery. Mediator is recruited to promoters by direct interactions with regulatory proteins and serves as a scaffold for the assembly of a functional preinitiation complex with RNA polymerase II and the general transcription factors.
Subcellular locations: Nucleus
Expressed in brain, heart, kidney, liver, lung, pancreas, placenta and skeletal muscle.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MED30_HUMAN\n - species: Homo sapiens\n - sequence: MSTPPLAASGMAPGPFAGPQAQQAAREVNTASLCRIGQETVQDIVYRTMEIFQLLRNMQLPNGVTYHTGTYQDRLTKLQDNLRQLSVLFRKLRLVYDKCNENCGGMDPIPVEQLIPYVEEDGSKNDDRAGPPRFASEERREIAEVNKKLKQKNQQLKQIMDQLRNLIWDINAMLAMRN\n ",
"role": "user"
},
{
"content": "Component of the Mediator complex, a coactivator involved in the regulated transcription of nearly all RNA polymerase II-dependent genes. Mediator functions as a bridge to convey information from gene-specific regulatory proteins to the basal RNA polymerase II transcription machinery. Mediator is recruited to promoters by direct interactions with regulatory proteins and serves as a scaffold for the assembly of a functional preinitiation complex with RNA polymerase II and the general transcription factors.\nSubcellular locations: Nucleus\nExpressed in brain, heart, kidney, liver, lung, pancreas, placenta and skeletal muscle.",
"role": "assistant"
}
] |
COLL1_HUMAN
|
Homo sapiens
|
MMLPQWLLLLFLLFFFLFLLTRGSLSPTKYNLLELKESCIRNQDCETGCCQRAPDNCESHCAEKGSEGSLCQTQVFFGQYRACPCLRNLTCIYSKNEKWLSIAYGRCQKIGRQKLAKKMFF
|
Subcellular locations: Secreted
Exclusively expressed in epididymis, in the corpus region.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: COLL1_HUMAN\n - species: Homo sapiens\n - sequence: MMLPQWLLLLFLLFFFLFLLTRGSLSPTKYNLLELKESCIRNQDCETGCCQRAPDNCESHCAEKGSEGSLCQTQVFFGQYRACPCLRNLTCIYSKNEKWLSIAYGRCQKIGRQKLAKKMFF\n ",
"role": "user"
},
{
"content": "Subcellular locations: Secreted\nExclusively expressed in epididymis, in the corpus region.",
"role": "assistant"
}
] |
SLAI2_HUMAN
|
Homo sapiens
|
MEDVNSNVNADQEVRKLQELVKKLEKQNEQLRSRSGAVQGAGSLGPGSPVRAGASIPSSGAASPRGFPLGLSAKSGGGPGSGPRRTSSEELRDATSLLAAGEGGLLDEVEPLRPDELERLSGWEEEEESWLYSSPKKKLTPMQKSVSPLVWCRQVLDYPSPDVECAKKSLIHKLDQTMSALKRQNLYNNPFNSMSYTSPYSPNASSPYSSGFNSPSSTPVRPPIVKQLILPGNSGNLKSSDRNPPLSPQSSIDSELSASELDEDSIGSNYKLNDVTDVQILARMQEESLRQEYAATTSRRSSGSSCNSTRRGTFSDQELDAQSLDDEDDNMHHAVYPAVNRFSPSPRNSPRPSPKQSPRNSPRSRSPARGIEYSRVSPQPMISRLQQPRLSLQGHPTDLQTSNVKNEEKLRRSLPNLSRTSNTQVDSVKSSRSDSNFQVPNGGIPRMQPQASAIPSPGKFRSPAAPSPLALRQPVKAFSNHGSGSPGSQEITQLTQTTSSPGPPMVQSTVSANPPSNINSATLTRPAGTTAMRSGLPRPSAPSAGGIPVPRSKLAQPVRRSLPAPKTYGSMKDDSWKDGCY
|
Binds to the plus end of microtubules and regulates microtubule dynamics and microtubule organization. Promotes cytoplasmic microtubule nucleation and elongation. Required for normal structure of the microtubule cytoskeleton during interphase.
Subcellular locations: Cytoplasm, Cytoskeleton
Colocalizes with microtubules. Detected at the plus end of growing microtubules.
Widely expressed with highest levels in adult liver, testis and ovary, and lowest levels in adult pancreas and spleen and in fetal brain.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SLAI2_HUMAN\n - species: Homo sapiens\n - sequence: MEDVNSNVNADQEVRKLQELVKKLEKQNEQLRSRSGAVQGAGSLGPGSPVRAGASIPSSGAASPRGFPLGLSAKSGGGPGSGPRRTSSEELRDATSLLAAGEGGLLDEVEPLRPDELERLSGWEEEEESWLYSSPKKKLTPMQKSVSPLVWCRQVLDYPSPDVECAKKSLIHKLDQTMSALKRQNLYNNPFNSMSYTSPYSPNASSPYSSGFNSPSSTPVRPPIVKQLILPGNSGNLKSSDRNPPLSPQSSIDSELSASELDEDSIGSNYKLNDVTDVQILARMQEESLRQEYAATTSRRSSGSSCNSTRRGTFSDQELDAQSLDDEDDNMHHAVYPAVNRFSPSPRNSPRPSPKQSPRNSPRSRSPARGIEYSRVSPQPMISRLQQPRLSLQGHPTDLQTSNVKNEEKLRRSLPNLSRTSNTQVDSVKSSRSDSNFQVPNGGIPRMQPQASAIPSPGKFRSPAAPSPLALRQPVKAFSNHGSGSPGSQEITQLTQTTSSPGPPMVQSTVSANPPSNINSATLTRPAGTTAMRSGLPRPSAPSAGGIPVPRSKLAQPVRRSLPAPKTYGSMKDDSWKDGCY\n ",
"role": "user"
},
{
"content": "Binds to the plus end of microtubules and regulates microtubule dynamics and microtubule organization. Promotes cytoplasmic microtubule nucleation and elongation. Required for normal structure of the microtubule cytoskeleton during interphase.\nSubcellular locations: Cytoplasm, Cytoskeleton\nColocalizes with microtubules. Detected at the plus end of growing microtubules.\nWidely expressed with highest levels in adult liver, testis and ovary, and lowest levels in adult pancreas and spleen and in fetal brain.",
"role": "assistant"
}
] |
DEF2_MACMU
|
Macaca mulatta
|
ACYCRIPACLAGERRYGTCFYMGRVWAFCC
|
Has bacteriostatic activity against L.monocytogenes, E.coli and S.aureus, microbicidial activity against L.monocytogenes and S.aureus and antifungal activity against C.neoformans.
Subcellular locations: Secreted
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: DEF2_MACMU\n - species: Macaca mulatta\n - sequence: ACYCRIPACLAGERRYGTCFYMGRVWAFCC\n ",
"role": "user"
},
{
"content": "Has bacteriostatic activity against L.monocytogenes, E.coli and S.aureus, microbicidial activity against L.monocytogenes and S.aureus and antifungal activity against C.neoformans.\nSubcellular locations: Secreted",
"role": "assistant"
}
] |
TVB76_HUMAN
|
Homo sapiens
|
MGTSLLCWVVLGFLGTDHTGAGVSQSPRYKVTKRGQDVALRCDPISGHVSLYWYRQALGQGPEFLTYFNYEAQQDKSGLPNDRFSAERPEGSISTLTIQRTEQRDSAMYRCASSL
|
V region of the variable domain of T cell receptor (TR) beta chain that participates in the antigen recognition . Alpha-beta T cell receptors are antigen specific receptors which are essential to the immune response and are present on the cell surface of T lymphocytes. Recognize peptide-major histocompatibility (MH) (pMH) complexes that are displayed by antigen presenting cells (APC), a prerequisite for efficient T cell adaptive immunity against pathogens . Binding of alpha-beta TR to pMH complex initiates TR-CD3 clustering on the cell surface and intracellular activation of LCK that phosphorylates the ITAM motifs of CD3G, CD3D, CD3E and CD247 enabling the recruitment of ZAP70. In turn ZAP70 phosphorylates LAT, which recruits numerous signaling molecules to form the LAT signalosome. The LAT signalosome propagates signal branching to three major signaling pathways, the calcium, the mitogen-activated protein kinase (MAPK) kinase and the nuclear factor NF-kappa-B (NF-kB) pathways, leading to the mobilization of transcription factors that are critical for gene expression and essential for T cell growth and differentiation . The T cell repertoire is generated in the thymus, by V-(D)-J rearrangement. This repertoire is then shaped by intrathymic selection events to generate a peripheral T cell pool of self-MH restricted, non-autoaggressive T cells. Post-thymic interaction of alpha-beta TR with the pMH complexes shapes TR structural and functional avidity .
Subcellular locations: Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TVB76_HUMAN\n - species: Homo sapiens\n - sequence: MGTSLLCWVVLGFLGTDHTGAGVSQSPRYKVTKRGQDVALRCDPISGHVSLYWYRQALGQGPEFLTYFNYEAQQDKSGLPNDRFSAERPEGSISTLTIQRTEQRDSAMYRCASSL\n ",
"role": "user"
},
{
"content": "V region of the variable domain of T cell receptor (TR) beta chain that participates in the antigen recognition . Alpha-beta T cell receptors are antigen specific receptors which are essential to the immune response and are present on the cell surface of T lymphocytes. Recognize peptide-major histocompatibility (MH) (pMH) complexes that are displayed by antigen presenting cells (APC), a prerequisite for efficient T cell adaptive immunity against pathogens . Binding of alpha-beta TR to pMH complex initiates TR-CD3 clustering on the cell surface and intracellular activation of LCK that phosphorylates the ITAM motifs of CD3G, CD3D, CD3E and CD247 enabling the recruitment of ZAP70. In turn ZAP70 phosphorylates LAT, which recruits numerous signaling molecules to form the LAT signalosome. The LAT signalosome propagates signal branching to three major signaling pathways, the calcium, the mitogen-activated protein kinase (MAPK) kinase and the nuclear factor NF-kappa-B (NF-kB) pathways, leading to the mobilization of transcription factors that are critical for gene expression and essential for T cell growth and differentiation . The T cell repertoire is generated in the thymus, by V-(D)-J rearrangement. This repertoire is then shaped by intrathymic selection events to generate a peripheral T cell pool of self-MH restricted, non-autoaggressive T cells. Post-thymic interaction of alpha-beta TR with the pMH complexes shapes TR structural and functional avidity .\nSubcellular locations: Cell membrane",
"role": "assistant"
}
] |
PKNX1_HUMAN
|
Homo sapiens
|
MMATQTLSIDSYQDGQQMQVVTELKTEQDPNCSEPDAEGVSPPPVESQTPMDVDKQAIYRHPLFPLLALLFEKCEQSTQGSEGTTSASFDVDIENFVRKQEKEGKPFFCEDPETDNLMVKAIQVLRIHLLELEKVNELCKDFCSRYIACLKTKMNSETLLSGEPGSPYSPVQSQQIQSAITGTISPQGIVVPASALQQGNVAMATVAGGTVYQPVTVVTPQGQVVTQTLSPGTIRIQNSQLQLQLNQDLSILHQDDGSSKNKRGVLPKHATNVMRSWLFQHIGHPYPTEDEKKQIAAQTNLTLLQVNNWFINARRRILQPMLDSSCSETPKTKKKTAQNRPVQRFWPDSIASGVAQPPPSELTMSEGAVVTITTPVNMNVDSLQSLSSDGATLAVQQVMMAGQSEDESVDSTEEDAGALAPAHISGLVLENSDSLQ
|
Activates transcription in the presence of PBX1A and HOXA1.
Subcellular locations: Nucleus
Ubiquitous. Isoform 2 is expressed in all examined tissues except in bone marrow.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PKNX1_HUMAN\n - species: Homo sapiens\n - sequence: MMATQTLSIDSYQDGQQMQVVTELKTEQDPNCSEPDAEGVSPPPVESQTPMDVDKQAIYRHPLFPLLALLFEKCEQSTQGSEGTTSASFDVDIENFVRKQEKEGKPFFCEDPETDNLMVKAIQVLRIHLLELEKVNELCKDFCSRYIACLKTKMNSETLLSGEPGSPYSPVQSQQIQSAITGTISPQGIVVPASALQQGNVAMATVAGGTVYQPVTVVTPQGQVVTQTLSPGTIRIQNSQLQLQLNQDLSILHQDDGSSKNKRGVLPKHATNVMRSWLFQHIGHPYPTEDEKKQIAAQTNLTLLQVNNWFINARRRILQPMLDSSCSETPKTKKKTAQNRPVQRFWPDSIASGVAQPPPSELTMSEGAVVTITTPVNMNVDSLQSLSSDGATLAVQQVMMAGQSEDESVDSTEEDAGALAPAHISGLVLENSDSLQ\n ",
"role": "user"
},
{
"content": "Activates transcription in the presence of PBX1A and HOXA1.\nSubcellular locations: Nucleus\nUbiquitous. Isoform 2 is expressed in all examined tissues except in bone marrow.",
"role": "assistant"
}
] |
TNF14_HUMAN
|
Homo sapiens
|
MEESVVRPSVFVVDGQTDIPFTRLGRSHRRQSCSVARVGLGLLLLLMGAGLAVQGWFLLQLHWRLGEMVTRLPDGPAGSWEQLIQERRSHEVNPAAHLTGANSSLTGSGGPLLWETQLGLAFLRGLSYHDGALVVTKAGYYYIYSKVQLGGVGCPLGLASTITHGLYKRTPRYPEELELLVSQQSPCGRATSSSRVWWDSSFLGGVVHLEAGEKVVVRVLDERLVRLRDGTRSYFGAFMV
|
Cytokine that binds to TNFRSF3/LTBR. Binding to the decoy receptor TNFRSF6B modulates its effects. Acts as a ligand for TNFRSF14/HVEM (, ). Upon binding to TNFRSF14/HVEM, delivers costimulatory signals to T cells, leading to T cell proliferation and IFNG production .
Subcellular locations: Cell membrane
Subcellular locations: Secreted
Subcellular locations: Cytoplasm
Predominantly expressed in the spleen but also found in the brain. Weakly expressed in peripheral lymphoid tissues and in heart, placenta, liver, lung, appendix, and kidney, and no expression seen in fetal tissues, endocrine glands, or nonhematopoietic tumor lines.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TNF14_HUMAN\n - species: Homo sapiens\n - sequence: MEESVVRPSVFVVDGQTDIPFTRLGRSHRRQSCSVARVGLGLLLLLMGAGLAVQGWFLLQLHWRLGEMVTRLPDGPAGSWEQLIQERRSHEVNPAAHLTGANSSLTGSGGPLLWETQLGLAFLRGLSYHDGALVVTKAGYYYIYSKVQLGGVGCPLGLASTITHGLYKRTPRYPEELELLVSQQSPCGRATSSSRVWWDSSFLGGVVHLEAGEKVVVRVLDERLVRLRDGTRSYFGAFMV\n ",
"role": "user"
},
{
"content": "Cytokine that binds to TNFRSF3/LTBR. Binding to the decoy receptor TNFRSF6B modulates its effects. Acts as a ligand for TNFRSF14/HVEM (, ). Upon binding to TNFRSF14/HVEM, delivers costimulatory signals to T cells, leading to T cell proliferation and IFNG production .\nSubcellular locations: Cell membrane\nSubcellular locations: Secreted\nSubcellular locations: Cytoplasm\nPredominantly expressed in the spleen but also found in the brain. Weakly expressed in peripheral lymphoid tissues and in heart, placenta, liver, lung, appendix, and kidney, and no expression seen in fetal tissues, endocrine glands, or nonhematopoietic tumor lines.",
"role": "assistant"
}
] |
ABC3H_HUMAN
|
Homo sapiens
|
MALLTAETFRLQFNNKRRLRRPYYPRKALLCYQLTPQNGSTPTRGYFENKKKCHAEICFINEIKSMGLDETQCYQVTCYLTWSPCSSCAWELVDFIKAHDHLNLGIFASRLYYHWCKPQQKGLRLLCGSQVPVEVMGFPEFADCWENFVDHEKPLSFNPYKMLEELDKNSRAIKRRLERIKIPGVRAQGRYMDILCDAEV
|
DNA deaminase (cytidine deaminase) which acts as an inhibitor of retrovirus replication and retrotransposon mobility via deaminase-dependent and -independent mechanisms. The A3H-var/haplotype 2 exhibits antiviral activity against vif-deficient HIV-1. After the penetration of retroviral nucleocapsids into target cells of infection and the initiation of reverse transcription, it can induce the conversion of cytosine to uracil in the minus-sense single-strand viral DNA, leading to G-to-A hypermutations in the subsequent plus-strand viral DNA. The resultant detrimental levels of mutations in the proviral genome, along with a deamination-independent mechanism that works prior to the proviral integration, together exert efficient antiretroviral effects in infected target cells. Selectively targets single-stranded DNA and does not deaminate double-stranded DNA or single- or double-stranded RNA. Exhibits antiviral activity also against T-cell leukemia virus type 1 (HTLV-1) and may inhibit the mobility of LTR and non-LTR retrotransposons.
Subcellular locations: Nucleus, Cytoplasm, Cytoplasm, P-body
Haplotype 1 is distributed in both the nucleus and cytoplasm, whereas haplotype 2 is predominantly cytoplasmic.
Expressed in lymphoid organs. Also detected in non-lymphoid tissues including lung, testis, ovary, fetal liver and skin.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ABC3H_HUMAN\n - species: Homo sapiens\n - sequence: MALLTAETFRLQFNNKRRLRRPYYPRKALLCYQLTPQNGSTPTRGYFENKKKCHAEICFINEIKSMGLDETQCYQVTCYLTWSPCSSCAWELVDFIKAHDHLNLGIFASRLYYHWCKPQQKGLRLLCGSQVPVEVMGFPEFADCWENFVDHEKPLSFNPYKMLEELDKNSRAIKRRLERIKIPGVRAQGRYMDILCDAEV\n ",
"role": "user"
},
{
"content": "DNA deaminase (cytidine deaminase) which acts as an inhibitor of retrovirus replication and retrotransposon mobility via deaminase-dependent and -independent mechanisms. The A3H-var/haplotype 2 exhibits antiviral activity against vif-deficient HIV-1. After the penetration of retroviral nucleocapsids into target cells of infection and the initiation of reverse transcription, it can induce the conversion of cytosine to uracil in the minus-sense single-strand viral DNA, leading to G-to-A hypermutations in the subsequent plus-strand viral DNA. The resultant detrimental levels of mutations in the proviral genome, along with a deamination-independent mechanism that works prior to the proviral integration, together exert efficient antiretroviral effects in infected target cells. Selectively targets single-stranded DNA and does not deaminate double-stranded DNA or single- or double-stranded RNA. Exhibits antiviral activity also against T-cell leukemia virus type 1 (HTLV-1) and may inhibit the mobility of LTR and non-LTR retrotransposons.\nSubcellular locations: Nucleus, Cytoplasm, Cytoplasm, P-body\nHaplotype 1 is distributed in both the nucleus and cytoplasm, whereas haplotype 2 is predominantly cytoplasmic.\nExpressed in lymphoid organs. Also detected in non-lymphoid tissues including lung, testis, ovary, fetal liver and skin.",
"role": "assistant"
}
] |
RING1_HUMAN
|
Homo sapiens
|
MTTPANAQNASKTWELSLYELHRTPQEAIMDGTEIAVSPRSLHSELMCPICLDMLKNTMTTKECLHRFCSDCIVTALRSGNKECPTCRKKLVSKRSLRPDPNFDALISKIYPSREEYEAHQDRVLIRLSRLHNQQALSSSIEEGLRMQAMHRAQRVRRPIPGSDQTTTMSGGEGEPGEGEGDGEDVSSDSAPDSAPGPAPKRPRGGGAGGSSVGTGGGGTGGVGGGAGSEDSGDRGGTLGGGTLGPPSPPGAPSPPEPGGEIELVFRPHPLLVEKGEYCQTRYVKTTGNATVDHLSKYLALRIALERRQQQEAGEPGGPGGGASDTGGPDGCGGEGGGAGGGDGPEEPALPSLEGVSEKQYTIYIAPGGGAFTTLNGSLTLELVNEKFWKVSRPLELCYAPTKDPK
|
Constitutes one of the E3 ubiquitin-protein ligases that mediate monoubiquitination of 'Lys-119' of histone H2A, thereby playing a central role in histone code and gene regulation. H2A 'Lys-119' ubiquitination gives a specific tag for epigenetic transcriptional repression and participates in X chromosome inactivation of female mammals. Essential component of a Polycomb group (PcG) multiprotein PRC1-like complex, a complex class required to maintain the transcriptionally repressive state of many genes, including Hox genes, throughout development. PcG PRC1 complex acts via chromatin remodeling and modification of histones, rendering chromatin heritably changed in its expressibility. Compared to RNF2/RING2, it does not have the main E3 ubiquitin ligase activity on histone H2A, and it may rather act as a modulator of RNF2/RING2 activity.
Subcellular locations: Nucleus, Nucleus speckle
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: RING1_HUMAN\n - species: Homo sapiens\n - sequence: MTTPANAQNASKTWELSLYELHRTPQEAIMDGTEIAVSPRSLHSELMCPICLDMLKNTMTTKECLHRFCSDCIVTALRSGNKECPTCRKKLVSKRSLRPDPNFDALISKIYPSREEYEAHQDRVLIRLSRLHNQQALSSSIEEGLRMQAMHRAQRVRRPIPGSDQTTTMSGGEGEPGEGEGDGEDVSSDSAPDSAPGPAPKRPRGGGAGGSSVGTGGGGTGGVGGGAGSEDSGDRGGTLGGGTLGPPSPPGAPSPPEPGGEIELVFRPHPLLVEKGEYCQTRYVKTTGNATVDHLSKYLALRIALERRQQQEAGEPGGPGGGASDTGGPDGCGGEGGGAGGGDGPEEPALPSLEGVSEKQYTIYIAPGGGAFTTLNGSLTLELVNEKFWKVSRPLELCYAPTKDPK\n ",
"role": "user"
},
{
"content": "Constitutes one of the E3 ubiquitin-protein ligases that mediate monoubiquitination of 'Lys-119' of histone H2A, thereby playing a central role in histone code and gene regulation. H2A 'Lys-119' ubiquitination gives a specific tag for epigenetic transcriptional repression and participates in X chromosome inactivation of female mammals. Essential component of a Polycomb group (PcG) multiprotein PRC1-like complex, a complex class required to maintain the transcriptionally repressive state of many genes, including Hox genes, throughout development. PcG PRC1 complex acts via chromatin remodeling and modification of histones, rendering chromatin heritably changed in its expressibility. Compared to RNF2/RING2, it does not have the main E3 ubiquitin ligase activity on histone H2A, and it may rather act as a modulator of RNF2/RING2 activity.\nSubcellular locations: Nucleus, Nucleus speckle",
"role": "assistant"
}
] |
HIG1A_HUMAN
|
Homo sapiens
|
MSTDTGVSLPSYEEDQGSKLIRKAKEAPFVPVGIAGFAAIVAYGLYKLKSRGNTKMSIHLIHMRVAAQGFVVGAMTVGMGYSMYREFWAKPKP
|
Proposed subunit of cytochrome c oxidase (COX, complex IV), which is the terminal component of the mitochondrial respiratory chain that catalyzes the reduction of oxygen to water. May play a role in the assembly of respiratory supercomplexes.
Subcellular locations: Mitochondrion membrane, Mitochondrion inner membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: HIG1A_HUMAN\n - species: Homo sapiens\n - sequence: MSTDTGVSLPSYEEDQGSKLIRKAKEAPFVPVGIAGFAAIVAYGLYKLKSRGNTKMSIHLIHMRVAAQGFVVGAMTVGMGYSMYREFWAKPKP\n ",
"role": "user"
},
{
"content": "Proposed subunit of cytochrome c oxidase (COX, complex IV), which is the terminal component of the mitochondrial respiratory chain that catalyzes the reduction of oxygen to water. May play a role in the assembly of respiratory supercomplexes.\nSubcellular locations: Mitochondrion membrane, Mitochondrion inner membrane",
"role": "assistant"
}
] |
SYSC_MACFA
|
Macaca fascicularis
|
MVLDLDLFRVDKGGDPALIRETQEKRFKDPGLVDQLVKADSEWRRCRFRADNLNKLKNLCSKTIGEKMKKKEPVEDDESVPENVLNFDDLTADALANLKVSQIKKVRLLIDEAILKCDAERIKLEAERFENLREIGNLLHPSVPISNDEDADNKVERIWGDCTVRKKYSHVDLVVMVDGFEGEKGAVVAGSRGYFLKGVLVFLEQALIQYALRTLGSRGYTPIYTPFFMRKEVMQEVAQLSQFDEELYKVIGKGSEKSDDNSYDEKYLIATSEQPIAALHRDEWLRPEDLPIKYAGLSTCFRQEVGSHGRDTRGIFRVHQFEKIEQFVYSSPHDNKSWEMFEEMITTAEEFYQSLGIPYHIVNIVSGSLNHAASKKLDLEAWFPGSGAFRELVSCSNCTDYQARRLRIRYGQTKKMMDKVEFVHMLNATMCATTRTICAILENYQTEKGITVPEKLKEFMPPGLQELIPFVKPAPIDQEPSKKQKKQHEGSKKKAAARDVALESRLQNMEVTDA
|
Catalyzes the attachment of serine to tRNA(Ser) in a two-step reaction: serine is first activated by ATP to form Ser-AMP and then transferred to the acceptor end of tRNA(Ser). Is probably also able to aminoacylate tRNA(Sec) with serine, to form the misacylated tRNA L-seryl-tRNA(Sec), which will be further converted into selenocysteinyl-tRNA(Sec). In the nucleus, binds to the VEGFA core promoter and prevents MYC binding and transcriptional activation by MYC. Recruits SIRT2 to the VEGFA promoter, promoting deacetylation of histone H4 at 'Lys-16' (H4K16). Thereby, inhibits the production of VEGFA and sprouting angiogenesis mediated by VEGFA.
Subcellular locations: Cytoplasm, Nucleus
Predominantly cytoplasmic, but a minor proportion is also found in the nucleus.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SYSC_MACFA\n - species: Macaca fascicularis\n - sequence: MVLDLDLFRVDKGGDPALIRETQEKRFKDPGLVDQLVKADSEWRRCRFRADNLNKLKNLCSKTIGEKMKKKEPVEDDESVPENVLNFDDLTADALANLKVSQIKKVRLLIDEAILKCDAERIKLEAERFENLREIGNLLHPSVPISNDEDADNKVERIWGDCTVRKKYSHVDLVVMVDGFEGEKGAVVAGSRGYFLKGVLVFLEQALIQYALRTLGSRGYTPIYTPFFMRKEVMQEVAQLSQFDEELYKVIGKGSEKSDDNSYDEKYLIATSEQPIAALHRDEWLRPEDLPIKYAGLSTCFRQEVGSHGRDTRGIFRVHQFEKIEQFVYSSPHDNKSWEMFEEMITTAEEFYQSLGIPYHIVNIVSGSLNHAASKKLDLEAWFPGSGAFRELVSCSNCTDYQARRLRIRYGQTKKMMDKVEFVHMLNATMCATTRTICAILENYQTEKGITVPEKLKEFMPPGLQELIPFVKPAPIDQEPSKKQKKQHEGSKKKAAARDVALESRLQNMEVTDA\n ",
"role": "user"
},
{
"content": "Catalyzes the attachment of serine to tRNA(Ser) in a two-step reaction: serine is first activated by ATP to form Ser-AMP and then transferred to the acceptor end of tRNA(Ser). Is probably also able to aminoacylate tRNA(Sec) with serine, to form the misacylated tRNA L-seryl-tRNA(Sec), which will be further converted into selenocysteinyl-tRNA(Sec). In the nucleus, binds to the VEGFA core promoter and prevents MYC binding and transcriptional activation by MYC. Recruits SIRT2 to the VEGFA promoter, promoting deacetylation of histone H4 at 'Lys-16' (H4K16). Thereby, inhibits the production of VEGFA and sprouting angiogenesis mediated by VEGFA.\nSubcellular locations: Cytoplasm, Nucleus\nPredominantly cytoplasmic, but a minor proportion is also found in the nucleus.",
"role": "assistant"
}
] |
CLD17_HUMAN
|
Homo sapiens
|
MAFYPLQIAGLVLGFLGMVGTLATTLLPQWRVSAFVGSNIIVFERLWEGLWMNCIRQARVRLQCKFYSSLLALPPALETARALMCVAVALSLIALLIGICGMKQVQCTGSNERAKAYLLGTSGVLFILTGIFVLIPVSWTANIIIRDFYNPAIHIGQKRELGAALFLGWASAAVLFIGGGLLCGFCCCNRKKQGYRYPVPGYRVPHTDKRRNTTMLSKTSTSYV
|
Channel-forming tight junction protein with selectivity for anions, including chloride and bicarbonate, and for solutes smaller than 9 Angstrom in diameter. In the kidney proximal tubule, may be involved in quantitative reabsorption of filtered anions. Does not affect water permeability.
Subcellular locations: Cell junction, Tight junction, Cell membrane
In the kidney, expressed in the proximal tubule and in the Henle's loop. In the distal convoluted tubule, not expressed in all tubules. Not detected in the collecting duct (at protein level).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CLD17_HUMAN\n - species: Homo sapiens\n - sequence: MAFYPLQIAGLVLGFLGMVGTLATTLLPQWRVSAFVGSNIIVFERLWEGLWMNCIRQARVRLQCKFYSSLLALPPALETARALMCVAVALSLIALLIGICGMKQVQCTGSNERAKAYLLGTSGVLFILTGIFVLIPVSWTANIIIRDFYNPAIHIGQKRELGAALFLGWASAAVLFIGGGLLCGFCCCNRKKQGYRYPVPGYRVPHTDKRRNTTMLSKTSTSYV\n ",
"role": "user"
},
{
"content": "Channel-forming tight junction protein with selectivity for anions, including chloride and bicarbonate, and for solutes smaller than 9 Angstrom in diameter. In the kidney proximal tubule, may be involved in quantitative reabsorption of filtered anions. Does not affect water permeability.\nSubcellular locations: Cell junction, Tight junction, Cell membrane\nIn the kidney, expressed in the proximal tubule and in the Henle's loop. In the distal convoluted tubule, not expressed in all tubules. Not detected in the collecting duct (at protein level).",
"role": "assistant"
}
] |
TZAP_PONAB
|
Pongo abelii
|
MDGSFVQHSVRVLQELNKQREKGQYCDATLDVGGLVFKAHWSVLACCSHFFQSLYGDGSGGSVVLPAGFAEIFGLLLDFFYTGHLALTSGNRDQVLLAARELRVPEAVELCQSFKPKISVGQAAGGQSGQGPPASQNVNSHVKEPAGLEEEEVSRTLGLVPRDQEPRGSHSPQRPKLHSLAQSESPSSLCGKLKQASKPCPPEDKKLEDCKVLPRPFEAEGAQLQGGSNEWEVVVQVEDDGDGDYMSEPEAVLTRRKSNVIRKPCAAEPALNAGSLAAEPAENRKGTAVPVECPTCHKKFLSKYYLKVHNRKHTGEKPFECPKCGKCYFRKENLLEHEARNCMNRSEQVFTCSVCQETFRRRMELRVHMVSHTGEMPYKCSSCSQQFMQKKDLQSHMIKLHGAPKPHACPTCAKCFLSRTELQLHEAFKHRGEKLFVCEECGHRASSRNGLQMHIKAKHRNERPHVCEFCSHAFTQKANLNMHLRTHTGEKPFQCHLCGKTFRTQASLDKHNRTHTGERPFSCEFCEQRFTEKGPLLRHVASRHQEGRPHFCQICGKTFKAVEQLRVHVRRHKGVRKFECTECGYKFTRQAHLRRHMEIHDRVENYNPRQRKLRNLIIEDEKMVVVALQPPAELEVGSAEVIVESLAQGGLASQLPGQRLCAEESFTGPGVLEPSLIITAAVPEDCDT
|
Telomere-binding protein that acts as a regulator of telomere length. Directly binds the telomeric double-stranded 5'-TTAGGG-3' repeat. Preferentially binds to telomeres that have a low concentration of shelterin complex and acts as a regulator of telomere length by initiating telomere trimming, a process that prevents the accumulation of aberrantly long telomeres. Also acts as a transcription regulator that binds to promoter regions. Regulates expression of a small subset of genes, including MTFP1. Regulates expression the J and/or S elements in MHC II promoter. Acts as a negative regulator of cell proliferation by specifically activating expression of ARF, a tumor suppressor isoform of CDKN2A.
Subcellular locations: Nucleus, Chromosome, Telomere
Directly binds the telomeric double-stranded 5'-TTAGGG-3' repeat. According to a report, preferentially binds to long telomeres that have a low concentration of shelterin complex, competing with the telomeric repeat binding factors TERF1 and TERF2. According to another report, binds telomeres regardless of their length.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TZAP_PONAB\n - species: Pongo abelii\n - sequence: MDGSFVQHSVRVLQELNKQREKGQYCDATLDVGGLVFKAHWSVLACCSHFFQSLYGDGSGGSVVLPAGFAEIFGLLLDFFYTGHLALTSGNRDQVLLAARELRVPEAVELCQSFKPKISVGQAAGGQSGQGPPASQNVNSHVKEPAGLEEEEVSRTLGLVPRDQEPRGSHSPQRPKLHSLAQSESPSSLCGKLKQASKPCPPEDKKLEDCKVLPRPFEAEGAQLQGGSNEWEVVVQVEDDGDGDYMSEPEAVLTRRKSNVIRKPCAAEPALNAGSLAAEPAENRKGTAVPVECPTCHKKFLSKYYLKVHNRKHTGEKPFECPKCGKCYFRKENLLEHEARNCMNRSEQVFTCSVCQETFRRRMELRVHMVSHTGEMPYKCSSCSQQFMQKKDLQSHMIKLHGAPKPHACPTCAKCFLSRTELQLHEAFKHRGEKLFVCEECGHRASSRNGLQMHIKAKHRNERPHVCEFCSHAFTQKANLNMHLRTHTGEKPFQCHLCGKTFRTQASLDKHNRTHTGERPFSCEFCEQRFTEKGPLLRHVASRHQEGRPHFCQICGKTFKAVEQLRVHVRRHKGVRKFECTECGYKFTRQAHLRRHMEIHDRVENYNPRQRKLRNLIIEDEKMVVVALQPPAELEVGSAEVIVESLAQGGLASQLPGQRLCAEESFTGPGVLEPSLIITAAVPEDCDT\n ",
"role": "user"
},
{
"content": "Telomere-binding protein that acts as a regulator of telomere length. Directly binds the telomeric double-stranded 5'-TTAGGG-3' repeat. Preferentially binds to telomeres that have a low concentration of shelterin complex and acts as a regulator of telomere length by initiating telomere trimming, a process that prevents the accumulation of aberrantly long telomeres. Also acts as a transcription regulator that binds to promoter regions. Regulates expression of a small subset of genes, including MTFP1. Regulates expression the J and/or S elements in MHC II promoter. Acts as a negative regulator of cell proliferation by specifically activating expression of ARF, a tumor suppressor isoform of CDKN2A.\nSubcellular locations: Nucleus, Chromosome, Telomere\nDirectly binds the telomeric double-stranded 5'-TTAGGG-3' repeat. According to a report, preferentially binds to long telomeres that have a low concentration of shelterin complex, competing with the telomeric repeat binding factors TERF1 and TERF2. According to another report, binds telomeres regardless of their length.",
"role": "assistant"
}
] |
CLC4G_HUMAN
|
Homo sapiens
|
MDTTRYSKWGGSSEEVPGGPWGRWVHWSRRPLFLALAVLVTTVLWAVILSILLSKASTERAALLDGHDLLRTNASKQTAALGALKEEVGDCHSCCSGTQAQLQTTRAELGEAQAKLMEQESALRELRERVTQGLAEAGRGREDVRTELFRALEAVRLQNNSCEPCPTSWLSFEGSCYFFSVPKTTWAAAQDHCADASAHLVIVGGLDEQGFLTRNTRGRGYWLGLRAVRHLGKVQGYQWVDGVSLSFSHWNQGEPNDAWGRENCVMMLHTGLWNDAPCDSEKDGWICEKRHNC
|
Binds mannose, N-acetylglucosamine (GlcNAc) and fucose, but not galactose, in a Ca(2+)-dependent manner, in vitro.
(Microbial infection) Acts as a receptor for Japanese encephalitis virus.
(Microbial infection) Acts as a receptor for Ebolavirus.
(Microbial infection) Acts as a receptor for SARS-CoV.
(Microbial infection) Acts as a receptor for Lassa virus and Lymphocytic choriomeningitis virus glycoprotein (, ).
Subcellular locations: Cell membrane
Expressed exclusively in fetal and adult liver and in lymph nodes. Specifically expressed by endothelial cells lining lymph node and liver sinuses (at protein level).
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CLC4G_HUMAN\n - species: Homo sapiens\n - sequence: MDTTRYSKWGGSSEEVPGGPWGRWVHWSRRPLFLALAVLVTTVLWAVILSILLSKASTERAALLDGHDLLRTNASKQTAALGALKEEVGDCHSCCSGTQAQLQTTRAELGEAQAKLMEQESALRELRERVTQGLAEAGRGREDVRTELFRALEAVRLQNNSCEPCPTSWLSFEGSCYFFSVPKTTWAAAQDHCADASAHLVIVGGLDEQGFLTRNTRGRGYWLGLRAVRHLGKVQGYQWVDGVSLSFSHWNQGEPNDAWGRENCVMMLHTGLWNDAPCDSEKDGWICEKRHNC\n ",
"role": "user"
},
{
"content": "Binds mannose, N-acetylglucosamine (GlcNAc) and fucose, but not galactose, in a Ca(2+)-dependent manner, in vitro.\n(Microbial infection) Acts as a receptor for Japanese encephalitis virus.\n(Microbial infection) Acts as a receptor for Ebolavirus.\n(Microbial infection) Acts as a receptor for SARS-CoV.\n(Microbial infection) Acts as a receptor for Lassa virus and Lymphocytic choriomeningitis virus glycoprotein (, ).\nSubcellular locations: Cell membrane\nExpressed exclusively in fetal and adult liver and in lymph nodes. Specifically expressed by endothelial cells lining lymph node and liver sinuses (at protein level).",
"role": "assistant"
}
] |
SIGL8_HUMAN
|
Homo sapiens
|
MLLLLLLLPLLWGTKGMEGDRQYGDGYLLQVQELVTVQEGLCVHVPCSFSYPQDGWTDSDPVHGYWFRAGDRPYQDAPVATNNPDREVQAETQGRFQLLGDIWSNDCSLSIRDARKRDKGSYFFRLERGSMKWSYKSQLNYKTKQLSVFVTALTHRPDILILGTLESGHSRNLTCSVPWACKQGTPPMISWIGASVSSPGPTTARSSVLTLTPKPQDHGTSLTCQVTLPGTGVTTTSTVRLDVSYPPWNLTMTVFQGDATASTALGNGSSLSVLEGQSLRLVCAVNSNPPARLSWTRGSLTLCPSRSSNPGLLELPRVHVRDEGEFTCRAQNAQGSQHISLSLSLQNEGTGTSRPVSQVTLAAVGGAGATALAFLSFCIIFIIVRSCRKKSARPAAGVGDTGMEDAKAIRGSASQGPLTESWKDGNPLKKPPPAVAPSSGEEGELHYATLSFHKVKPQDPQGQEATDSEYSEIKIHKRETAETQACLRNHNPSSKEVRG
|
Putative adhesion molecule that mediates sialic-acid dependent binding to red blood cells (, ). Preferentially binds to alpha-2,3-linked sialic acid. Also binds to alpha-2,6-linked sialic acid. The sialic acid recognition site may be masked by cis interactions with sialic acids on the same cell surface . Recognizes simultaneously epitopes having a terminal N-acetylneuraminic acid (sialic acid) and an underlying 6-O-sulfated galactose. Preferentially binds to Gal-6-sulfated sialyl-Lewis X glycan epitopes .
Subcellular locations: Membrane
Expressed specifically on red blood cells namely basophil, mast cells and eosinophils.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SIGL8_HUMAN\n - species: Homo sapiens\n - sequence: MLLLLLLLPLLWGTKGMEGDRQYGDGYLLQVQELVTVQEGLCVHVPCSFSYPQDGWTDSDPVHGYWFRAGDRPYQDAPVATNNPDREVQAETQGRFQLLGDIWSNDCSLSIRDARKRDKGSYFFRLERGSMKWSYKSQLNYKTKQLSVFVTALTHRPDILILGTLESGHSRNLTCSVPWACKQGTPPMISWIGASVSSPGPTTARSSVLTLTPKPQDHGTSLTCQVTLPGTGVTTTSTVRLDVSYPPWNLTMTVFQGDATASTALGNGSSLSVLEGQSLRLVCAVNSNPPARLSWTRGSLTLCPSRSSNPGLLELPRVHVRDEGEFTCRAQNAQGSQHISLSLSLQNEGTGTSRPVSQVTLAAVGGAGATALAFLSFCIIFIIVRSCRKKSARPAAGVGDTGMEDAKAIRGSASQGPLTESWKDGNPLKKPPPAVAPSSGEEGELHYATLSFHKVKPQDPQGQEATDSEYSEIKIHKRETAETQACLRNHNPSSKEVRG\n ",
"role": "user"
},
{
"content": "Putative adhesion molecule that mediates sialic-acid dependent binding to red blood cells (, ). Preferentially binds to alpha-2,3-linked sialic acid. Also binds to alpha-2,6-linked sialic acid. The sialic acid recognition site may be masked by cis interactions with sialic acids on the same cell surface . Recognizes simultaneously epitopes having a terminal N-acetylneuraminic acid (sialic acid) and an underlying 6-O-sulfated galactose. Preferentially binds to Gal-6-sulfated sialyl-Lewis X glycan epitopes .\nSubcellular locations: Membrane\nExpressed specifically on red blood cells namely basophil, mast cells and eosinophils.",
"role": "assistant"
}
] |
DHX40_PONAB
|
Pongo abelii
|
MSRFPAVAGRAPRRQEEGERSRDLQEERPSAVCIADREEKGCTSQEGGTTPTFPIQKQRKKIIQAVRDNSFLIVTGNTGSGKTTQLPKYLYEAGFSQHGMIGVTQPRKVAAISVAQRVAEEMKCTLGSKVGYQVRFDDCSSKETAIKYMTDGCLLKHILGDPNLTKFSVIILDEAHERTLTTDILFGLLKKLFQEKSPNRKEHLKVVVMSATMELAKLSAFFGNCPIFDIPGRLYPVREKFCNLIGPRDRENTAYIQAIVKVTMDIHLNEMAGDILVFLTGQFEIEKSCELLFQMAESVDYDYDVQDTTLDGLLILPCYGSMTTDQQRRIFLPPPPGIRKCVISTNISATSLTIDGIRYVVDGGFVKQLNHNPRLGLDILEVVPISKSEALQRSGRAGRTASGKCFRIYSKDFWNQCMPDHVIPEIKRTSLTSVVLTLKCLAIHDVIRFPYLDPPNERLILEALKQLYQCDAIDRSGHVTRLGLSMVEFPLPPHLTCAVIKAASLDCEDLLLPIAAMLSVENVFIRPVDPEYQKEAEQRHRELAAKAGGFNDFATLAVIFEQCKSSGAPASWCQKHWIHWRCLFSAFRVEAQLRELIRKLKQQSDFPRETFEGPKHEVLRRCLCAGYFKNVARRSVGRTFCTMDGRGSPVHIHPSSALHEQETKLEWIVFHEVLVTTKVYARIVCPIRYEWVRDLLPKLHEFNAHDLSSVARREVREDARRRWTNKENVKQLKDGISKDVLKKMQRRNDDKSISDARARFLERKQQRTQDHSDTRKETG
|
Probable ATP-dependent RNA helicase.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: DHX40_PONAB\n - species: Pongo abelii\n - sequence: MSRFPAVAGRAPRRQEEGERSRDLQEERPSAVCIADREEKGCTSQEGGTTPTFPIQKQRKKIIQAVRDNSFLIVTGNTGSGKTTQLPKYLYEAGFSQHGMIGVTQPRKVAAISVAQRVAEEMKCTLGSKVGYQVRFDDCSSKETAIKYMTDGCLLKHILGDPNLTKFSVIILDEAHERTLTTDILFGLLKKLFQEKSPNRKEHLKVVVMSATMELAKLSAFFGNCPIFDIPGRLYPVREKFCNLIGPRDRENTAYIQAIVKVTMDIHLNEMAGDILVFLTGQFEIEKSCELLFQMAESVDYDYDVQDTTLDGLLILPCYGSMTTDQQRRIFLPPPPGIRKCVISTNISATSLTIDGIRYVVDGGFVKQLNHNPRLGLDILEVVPISKSEALQRSGRAGRTASGKCFRIYSKDFWNQCMPDHVIPEIKRTSLTSVVLTLKCLAIHDVIRFPYLDPPNERLILEALKQLYQCDAIDRSGHVTRLGLSMVEFPLPPHLTCAVIKAASLDCEDLLLPIAAMLSVENVFIRPVDPEYQKEAEQRHRELAAKAGGFNDFATLAVIFEQCKSSGAPASWCQKHWIHWRCLFSAFRVEAQLRELIRKLKQQSDFPRETFEGPKHEVLRRCLCAGYFKNVARRSVGRTFCTMDGRGSPVHIHPSSALHEQETKLEWIVFHEVLVTTKVYARIVCPIRYEWVRDLLPKLHEFNAHDLSSVARREVREDARRRWTNKENVKQLKDGISKDVLKKMQRRNDDKSISDARARFLERKQQRTQDHSDTRKETG\n ",
"role": "user"
},
{
"content": "Probable ATP-dependent RNA helicase.",
"role": "assistant"
}
] |
DJC24_HUMAN
|
Homo sapiens
|
MMAVEQMPKKDWYSILGADPSANISDLKQKYQKLILMYHPDKQSTDVPAGTVEECVQKFIEIDQAWKILGNEETKREYDLQRCEDDLRNVGPVDAQVYLEEMSWNEGDHSFYLSCRCGGKYSVSKDEAEEVSLISCDTCSLIIELLHYN
|
Stimulates the ATPase activity of several Hsp70-type chaperones. This ability is enhanced by iron-binding. The iron-bound form is redox-active and can function as electron carrier. Plays a role in the diphthamide biosynthesis, a post-translational modification of histidine which occurs in translation elongation factor 2 (EEF2) which can be ADP-ribosylated by diphtheria toxin and by Pseudomonas exotoxin A (Eta).
Subcellular locations: Cytoplasm, Cytoskeleton
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: DJC24_HUMAN\n - species: Homo sapiens\n - sequence: MMAVEQMPKKDWYSILGADPSANISDLKQKYQKLILMYHPDKQSTDVPAGTVEECVQKFIEIDQAWKILGNEETKREYDLQRCEDDLRNVGPVDAQVYLEEMSWNEGDHSFYLSCRCGGKYSVSKDEAEEVSLISCDTCSLIIELLHYN\n ",
"role": "user"
},
{
"content": "Stimulates the ATPase activity of several Hsp70-type chaperones. This ability is enhanced by iron-binding. The iron-bound form is redox-active and can function as electron carrier. Plays a role in the diphthamide biosynthesis, a post-translational modification of histidine which occurs in translation elongation factor 2 (EEF2) which can be ADP-ribosylated by diphtheria toxin and by Pseudomonas exotoxin A (Eta).\nSubcellular locations: Cytoplasm, Cytoskeleton",
"role": "assistant"
}
] |
MD2L1_HUMAN
|
Homo sapiens
|
MALQLSREQGITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTAKDDSAPREKSQKAIQDEIRSVIRQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPVND
|
Component of the spindle-assembly checkpoint that prevents the onset of anaphase until all chromosomes are properly aligned at the metaphase plate (, ). In the closed conformation (C-MAD2) forms a heterotetrameric complex with MAD1L1 at unattached kinetochores during prometaphase, the complex recruits open conformation molecules of MAD2L1 (O-MAD2) and then promotes the conversion of O-MAD2 to C-MAD2 . Required for the execution of the mitotic checkpoint which monitors the process of kinetochore-spindle attachment and inhibits the activity of the anaphase promoting complex by sequestering CDC20 until all chromosomes are aligned at the metaphase plate ( ).
Subcellular locations: Nucleus, Chromosome, Centromere, Kinetochore, Cytoplasm, Cytoplasm, Cytoskeleton, Spindle pole
Recruited by MAD1L1 to unattached kinetochores (Probable). Recruited to the nuclear pore complex by TPR during interphase. Recruited to kinetochores in late prometaphase after BUB1, CENPF, BUB1B and CENPE. Kinetochore association requires the presence of NEK2. Kinetochore association is repressed by UBD. Sequestered to the cytoplasm upon interaction with isoform 3 of MAD1L1 .
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MD2L1_HUMAN\n - species: Homo sapiens\n - sequence: MALQLSREQGITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTAKDDSAPREKSQKAIQDEIRSVIRQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPVND\n ",
"role": "user"
},
{
"content": "Component of the spindle-assembly checkpoint that prevents the onset of anaphase until all chromosomes are properly aligned at the metaphase plate (, ). In the closed conformation (C-MAD2) forms a heterotetrameric complex with MAD1L1 at unattached kinetochores during prometaphase, the complex recruits open conformation molecules of MAD2L1 (O-MAD2) and then promotes the conversion of O-MAD2 to C-MAD2 . Required for the execution of the mitotic checkpoint which monitors the process of kinetochore-spindle attachment and inhibits the activity of the anaphase promoting complex by sequestering CDC20 until all chromosomes are aligned at the metaphase plate ( ).\nSubcellular locations: Nucleus, Chromosome, Centromere, Kinetochore, Cytoplasm, Cytoplasm, Cytoskeleton, Spindle pole\nRecruited by MAD1L1 to unattached kinetochores (Probable). Recruited to the nuclear pore complex by TPR during interphase. Recruited to kinetochores in late prometaphase after BUB1, CENPF, BUB1B and CENPE. Kinetochore association requires the presence of NEK2. Kinetochore association is repressed by UBD. Sequestered to the cytoplasm upon interaction with isoform 3 of MAD1L1 .",
"role": "assistant"
}
] |
CTTB2_AOTNA
|
Aotus nancymaae
|
MATDGASCEPDLSRAPEDAAGAAAEAAKKEFDVDTLSKSELRMLLSVMEGELEARDLVIEALRARRKEVFIQERYGRFNLNDPFLALQRDYEAGAGDKEKKPVCTNPLSILEAVMAHCRKMQERMSAQLAAAESRQKKLEMEKLQLQALEQEHKKLATRLEEERGKNKQVVLMLVKECKQLSGKVIEEAQKLEDVMAKLEEEKKKTNELEEELCAEKRRSTEMEAQMEKQLSEFDTEREQLRAKLNREEAHTTDLKEEIDKMKKMIEQLKRGSDSKPSLSLPRKTKDRRLVSISVGTEGTVTRSVACQTDLVTESADHVKKLPLTMPVKPSTGSPLASANAKGSVCTSAAMARPGIDRQASHGDLIGVSVPAFPPSSASRIEENGPSTGSTPDPTSSTPPLPSNAAPPTAQTPGITPQNSQAPPMHSLHSPCANASLHPGLNPRIQAARFRFQGNANDPDQNGNTTQSPPSRDVSPTSRDNLVAKQLARNTVTQALSRFTGPQAGAPPRPGAPPAGDVGTHPSVGRTSVKTHGVARVDRGNPPPIPPKKPGLSQTPSPPHPQLKVIIDSSRASNTGAKGDNKTVASPPSSLPQGNRVINEENLPKSSSPQLPPKPSIDLTVAPAGCAVSALATSQVGAWPAATPGLNQPACSDSSLVIPTTIAFCSSINPVSASSCRPGASDSLLVTASGWSPSLTPLLMSGGPAPLAGRPTLLQQAAAQGNVTLLSMLLNEEGLDINYSCEDGHSALYSAAKNGHTDCVRLLLSAEAQVNAADKNGFTPLCAAAAQGHFKCVELLIAYDANINHAADGGQTPLYLACKNGNKECIKLLLEAGTDRSVKTTDGWTPVHAAVDTGNVDSLKLLMYHRVPAHGNSFSEEESESGVFDLDGGEESPEGKSKPVVTADLINHANREGWTAAHIAASKGFKNCLEILCRHGGLETERRDKCNRTVHDVATDDCKHLLENLNALKIPLRISVGEIEPSNYGSDDFECENTICALNIRKQTSWDDFSKAVSQALTNHFQAISSDGWWSLEDVTCNNTTDSNIGLSARSIRSITLGNVPWSVGQSFAQSPWDFMMKNKAEHITVLLSGPQEGCLSSVTYASMIPLQMMQNYLRLVEQYHNVIFHGPEGSLQDYIVHQLALCLKHRQMAAGFSCEIVRAEVDAGFSKKQLLDLFISSACLIPVKQSPVKKKIIIILENLEKSSLSELLRDFLAPLENRSTESPCTFQKGNGMSECYYFHENCFLMGTIAKACLQGSDLLVQQHFRWVQLRWDAEPMQGLLQRFLRRKVVNKFRGQVPPPCDPVCKTVDWALSVWRQLNSCLARLGTPEALLGPKYFLSCPVVPGHAQVTVKWMSKLWNGVITPRVQEAILSRASVKRQPGFGQTTAKRHPSQGQQAVVKAALSILLNKAVLHGCPLPRAELEQHTADFKGGSFPLSIVSSYNSCSKKKGESGAWRRVNTSPRRKSSRFSLPTWNKPDLSNEGIKNKTLSQLNCNRNASLSKQKSLENDVSLTLNLDQRLSLGSDDEADLVKELQSMCSSKSESDISKIADSRDDLRMFDSSGNHPVFSATINNLRMPVSQKEVCPLSSHQTTECSNSKSKTELGVSRVKSFLPVPRSKVTQCSQNTKRSSSSSNTRQIEINNNSKEEN
|
Regulates the dendritic spine distribution of CTTN/cortactin in hippocampal neurons, thus controls dendritic spinogenesis and dendritic spine maintenance.
Subcellular locations: Cytoplasm, Cell cortex, Cell projection, Dendritic spine
Remains associated with dendritic spines even after glutamate stimulation.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CTTB2_AOTNA\n - species: Aotus nancymaae\n - sequence: MATDGASCEPDLSRAPEDAAGAAAEAAKKEFDVDTLSKSELRMLLSVMEGELEARDLVIEALRARRKEVFIQERYGRFNLNDPFLALQRDYEAGAGDKEKKPVCTNPLSILEAVMAHCRKMQERMSAQLAAAESRQKKLEMEKLQLQALEQEHKKLATRLEEERGKNKQVVLMLVKECKQLSGKVIEEAQKLEDVMAKLEEEKKKTNELEEELCAEKRRSTEMEAQMEKQLSEFDTEREQLRAKLNREEAHTTDLKEEIDKMKKMIEQLKRGSDSKPSLSLPRKTKDRRLVSISVGTEGTVTRSVACQTDLVTESADHVKKLPLTMPVKPSTGSPLASANAKGSVCTSAAMARPGIDRQASHGDLIGVSVPAFPPSSASRIEENGPSTGSTPDPTSSTPPLPSNAAPPTAQTPGITPQNSQAPPMHSLHSPCANASLHPGLNPRIQAARFRFQGNANDPDQNGNTTQSPPSRDVSPTSRDNLVAKQLARNTVTQALSRFTGPQAGAPPRPGAPPAGDVGTHPSVGRTSVKTHGVARVDRGNPPPIPPKKPGLSQTPSPPHPQLKVIIDSSRASNTGAKGDNKTVASPPSSLPQGNRVINEENLPKSSSPQLPPKPSIDLTVAPAGCAVSALATSQVGAWPAATPGLNQPACSDSSLVIPTTIAFCSSINPVSASSCRPGASDSLLVTASGWSPSLTPLLMSGGPAPLAGRPTLLQQAAAQGNVTLLSMLLNEEGLDINYSCEDGHSALYSAAKNGHTDCVRLLLSAEAQVNAADKNGFTPLCAAAAQGHFKCVELLIAYDANINHAADGGQTPLYLACKNGNKECIKLLLEAGTDRSVKTTDGWTPVHAAVDTGNVDSLKLLMYHRVPAHGNSFSEEESESGVFDLDGGEESPEGKSKPVVTADLINHANREGWTAAHIAASKGFKNCLEILCRHGGLETERRDKCNRTVHDVATDDCKHLLENLNALKIPLRISVGEIEPSNYGSDDFECENTICALNIRKQTSWDDFSKAVSQALTNHFQAISSDGWWSLEDVTCNNTTDSNIGLSARSIRSITLGNVPWSVGQSFAQSPWDFMMKNKAEHITVLLSGPQEGCLSSVTYASMIPLQMMQNYLRLVEQYHNVIFHGPEGSLQDYIVHQLALCLKHRQMAAGFSCEIVRAEVDAGFSKKQLLDLFISSACLIPVKQSPVKKKIIIILENLEKSSLSELLRDFLAPLENRSTESPCTFQKGNGMSECYYFHENCFLMGTIAKACLQGSDLLVQQHFRWVQLRWDAEPMQGLLQRFLRRKVVNKFRGQVPPPCDPVCKTVDWALSVWRQLNSCLARLGTPEALLGPKYFLSCPVVPGHAQVTVKWMSKLWNGVITPRVQEAILSRASVKRQPGFGQTTAKRHPSQGQQAVVKAALSILLNKAVLHGCPLPRAELEQHTADFKGGSFPLSIVSSYNSCSKKKGESGAWRRVNTSPRRKSSRFSLPTWNKPDLSNEGIKNKTLSQLNCNRNASLSKQKSLENDVSLTLNLDQRLSLGSDDEADLVKELQSMCSSKSESDISKIADSRDDLRMFDSSGNHPVFSATINNLRMPVSQKEVCPLSSHQTTECSNSKSKTELGVSRVKSFLPVPRSKVTQCSQNTKRSSSSSNTRQIEINNNSKEEN\n ",
"role": "user"
},
{
"content": "Regulates the dendritic spine distribution of CTTN/cortactin in hippocampal neurons, thus controls dendritic spinogenesis and dendritic spine maintenance.\nSubcellular locations: Cytoplasm, Cell cortex, Cell projection, Dendritic spine\nRemains associated with dendritic spines even after glutamate stimulation.",
"role": "assistant"
}
] |
PCDH9_HUMAN
|
Homo sapiens
|
MDLRDFYLLAALIACLRLDSAIAQELIYTIREELPENVPIGNIPKDLNISHINAATGTSASLVYRLVSKAGDAPLVKVSSSTGEIFTTSNRIDREKLCAGASYAEENECFFELEVVILPNDFFRLIKIKIIVKDTNDNAPMFPSPVINISIPENTLINSRFPIPSATDPDTGFNGVQHYELLNGQSVFGLDIVETPEGEKWPQLIVQQNLDREQKDTYVMKIKVEDGGTPQKSSTAILQVTVSDVNDNRPVFKEGQVEVHIPENAPVGTSVIQLHATDADIGSNAEIRYIFGAQVAPATKRLFALNNTTGLITVQRSLDREETAIHKVTVLASDGSSTPARATVTINVTDVNDNPPNIDLRYIISPINGTVYLSEKDPVNTKIALITVSDKDTDVNGKVICFIEREVPFHLKAVYDNQYLLETSSLLDYEGTKEFSFKIVASDSGKPSLNQTALVRVKLEDENDNPPIFNQPVIELSVSENNRRGLYLTTISATDEDSGKNADIVYQLGPNASFFDLDRKTGVLTASRVFDREEQERFIFTVTARDNGTPPLQSQAAVIVTVLDENDNSPKFTHNHFQFFVSENLPKYSTVGVITVTDADAGENKAVTLSILNDNDNFVLDPYSGVIKSNVSFDREQQSSYTFDVKATDGGQPPRSSTAKVTINVMDVNDNSPVVISPPSNTSFKLVPLSAIPGSVVAEVFAVDVDTGMNAELKYTIVSGNNKGLFRIDPVTGNITLEEKPAPTDVGLHRLVVNISDLGYPKSLHTLVLVFLYVNDTAGNASYIYDLIRRTMETPLDRNIGDSSQPYQNEDYLTIMIAIIAGAMVVIVVIFVTVLVRCRHASRFKAAQRSKQGAEWMSPNQENKQNKKKKRKKRKSPKSSLLNFVTIEESKPDDAVHEPINGTISLPAELEEQSIGRFDWGPAPPTTFKPNSPDLAKHYKSASPQPAFHLKPDTPVSVKKHHVIQELPLDNTFVGGCDTLSKRSSTSSDHFSASECSSQGGFKTKGPLHTRQCNSHSKSDNIPVTPQKCPSSTGFHIQENEESHYESQRRVTFHLPDGSQESCSDSGLGDHEPVGSGTLISHPLPLVQPQDEFYDQASPDKRTEADGNSDPNSDGPLGPRGLAEATEMCTQECLVLGHSDNCWMPPGLGPYQHPKSPLSTFAPQKEWVKKDKLVNGHTLTRAWKEDSNRNQFNDRKQYGSNEGHFNNGSHMTDIPLANLKSYKQAGGATESPKEHQL
|
Potential calcium-dependent cell-adhesion protein.
Subcellular locations: Cell membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PCDH9_HUMAN\n - species: Homo sapiens\n - sequence: MDLRDFYLLAALIACLRLDSAIAQELIYTIREELPENVPIGNIPKDLNISHINAATGTSASLVYRLVSKAGDAPLVKVSSSTGEIFTTSNRIDREKLCAGASYAEENECFFELEVVILPNDFFRLIKIKIIVKDTNDNAPMFPSPVINISIPENTLINSRFPIPSATDPDTGFNGVQHYELLNGQSVFGLDIVETPEGEKWPQLIVQQNLDREQKDTYVMKIKVEDGGTPQKSSTAILQVTVSDVNDNRPVFKEGQVEVHIPENAPVGTSVIQLHATDADIGSNAEIRYIFGAQVAPATKRLFALNNTTGLITVQRSLDREETAIHKVTVLASDGSSTPARATVTINVTDVNDNPPNIDLRYIISPINGTVYLSEKDPVNTKIALITVSDKDTDVNGKVICFIEREVPFHLKAVYDNQYLLETSSLLDYEGTKEFSFKIVASDSGKPSLNQTALVRVKLEDENDNPPIFNQPVIELSVSENNRRGLYLTTISATDEDSGKNADIVYQLGPNASFFDLDRKTGVLTASRVFDREEQERFIFTVTARDNGTPPLQSQAAVIVTVLDENDNSPKFTHNHFQFFVSENLPKYSTVGVITVTDADAGENKAVTLSILNDNDNFVLDPYSGVIKSNVSFDREQQSSYTFDVKATDGGQPPRSSTAKVTINVMDVNDNSPVVISPPSNTSFKLVPLSAIPGSVVAEVFAVDVDTGMNAELKYTIVSGNNKGLFRIDPVTGNITLEEKPAPTDVGLHRLVVNISDLGYPKSLHTLVLVFLYVNDTAGNASYIYDLIRRTMETPLDRNIGDSSQPYQNEDYLTIMIAIIAGAMVVIVVIFVTVLVRCRHASRFKAAQRSKQGAEWMSPNQENKQNKKKKRKKRKSPKSSLLNFVTIEESKPDDAVHEPINGTISLPAELEEQSIGRFDWGPAPPTTFKPNSPDLAKHYKSASPQPAFHLKPDTPVSVKKHHVIQELPLDNTFVGGCDTLSKRSSTSSDHFSASECSSQGGFKTKGPLHTRQCNSHSKSDNIPVTPQKCPSSTGFHIQENEESHYESQRRVTFHLPDGSQESCSDSGLGDHEPVGSGTLISHPLPLVQPQDEFYDQASPDKRTEADGNSDPNSDGPLGPRGLAEATEMCTQECLVLGHSDNCWMPPGLGPYQHPKSPLSTFAPQKEWVKKDKLVNGHTLTRAWKEDSNRNQFNDRKQYGSNEGHFNNGSHMTDIPLANLKSYKQAGGATESPKEHQL\n ",
"role": "user"
},
{
"content": "Potential calcium-dependent cell-adhesion protein.\nSubcellular locations: Cell membrane",
"role": "assistant"
}
] |
SLIT1_HUMAN
|
Homo sapiens
|
MALTPGWGSSAGPVRPELWLLLWAAAWRLGASACPALCTCTGTTVDCHGTGLQAIPKNIPRNTERLELNGNNITRIHKNDFAGLKQLRVLQLMENQIGAVERGAFDDMKELERLRLNRNQLHMLPELLFQNNQALSRLDLSENAIQAIPRKAFRGATDLKNLQLDKNQISCIEEGAFRALRGLEVLTLNNNNITTIPVSSFNHMPKLRTFRLHSNHLFCDCHLAWLSQWLRQRPTIGLFTQCSGPASLRGLNVAEVQKSEFSCSGQGEAGRVPTCTLSSGSCPAMCTCSNGIVDCRGKGLTAIPANLPETMTEIRLELNGIKSIPPGAFSPYRKLRRIDLSNNQIAEIAPDAFQGLRSLNSLVLYGNKITDLPRGVFGGLYTLQLLLLNANKINCIRPDAFQDLQNLSLLSLYDNKIQSLAKGTFTSLRAIQTLHLAQNPFICDCNLKWLADFLRTNPIETSGARCASPRRLANKRIGQIKSKKFRCSAKEQYFIPGTEDYQLNSECNSDVVCPHKCRCEANVVECSSLKLTKIPERIPQSTAELRLNNNEISILEATGMFKKLTHLKKINLSNNKVSEIEDGAFEGAASVSELHLTANQLESIRSGMFRGLDGLRTLMLRNNRISCIHNDSFTGLRNVRLLSLYDNQITTVSPGAFDTLQSLSTLNLLANPFNCNCQLAWLGGWLRKRKIVTGNPRCQNPDFLRQIPLQDVAFPDFRCEEGQEEGGCLPRPQCPQECACLDTVVRCSNKHLRALPKGIPKNVTELYLDGNQFTLVPGQLSTFKYLQLVDLSNNKISSLSNSSFTNMSQLTTLILSYNALQCIPPLAFQGLRSLRLLSLHGNDISTLQEGIFADVTSLSHLAIGANPLYCDCHLRWLSSWVKTGYKEPGIARCAGPQDMEGKLLLTTPAKKFECQGPPTLAVQAKCDLCLSSPCQNQGTCHNDPLEVYRCACPSGYKGRDCEVSLDSCSSGPCENGGTCHAQEGEDAPFTCSCPTGFEGPTCGVNTDDCVDHACANGGVCVDGVGNYTCQCPLQYEGKACEQLVDLCSPDLNPCQHEAQCVGTPDGPRCECMPGYAGDNCSENQDDCRDHRCQNGAQCMDEVNSYSCLCAEGYSGQLCEIPPHLPAPKSPCEGTECQNGANCVDQGNRPVCQCLPGFGGPECEKLLSVNFVDRDTYLQFTDLQNWPRANITLQVSTAEDNGILLYNGDNDHIAVELYQGHVRVSYDPGSYPSSAIYSAETINDGQFHTVELVAFDQMVNLSIDGGSPMTMDNFGKHYTLNSEAPLYVGGMPVDVNSAAFRLWQILNGTGFHGCIRNLYINNELQDFTKTQMKPGVVPGCEPCRKLYCLHGICQPNATPGPMCHCEAGWVGLHCDQPADGPCHGHKCVHGQCVPLDALSYSCQCQDGYSGALCNQAGALAEPCRGLQCLHGHCQASGTKGAHCVCDPGFSGELCEQESECRGDPVRDFHQVQRGYAICQTTRPLSWVECRGSCPGQGCCQGLRLKRRKFTFECSDGTSFAEEVEKPTKCGCALCA
|
Thought to act as molecular guidance cue in cellular migration, and function appears to be mediated by interaction with roundabout homolog receptors. During neural development involved in axonal navigation at the ventral midline of the neural tube and projection of axons to different regions (By similarity). SLIT1 and SLIT2 together seem to be essential for midline guidance in the forebrain by acting as repulsive signal preventing inappropriate midline crossing by axons projecting from the olfactory bulb.
Subcellular locations: Secreted
Predominantly expressed in adult forebrain. Expressed in fetal brain, lung and kidney.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SLIT1_HUMAN\n - species: Homo sapiens\n - sequence: MALTPGWGSSAGPVRPELWLLLWAAAWRLGASACPALCTCTGTTVDCHGTGLQAIPKNIPRNTERLELNGNNITRIHKNDFAGLKQLRVLQLMENQIGAVERGAFDDMKELERLRLNRNQLHMLPELLFQNNQALSRLDLSENAIQAIPRKAFRGATDLKNLQLDKNQISCIEEGAFRALRGLEVLTLNNNNITTIPVSSFNHMPKLRTFRLHSNHLFCDCHLAWLSQWLRQRPTIGLFTQCSGPASLRGLNVAEVQKSEFSCSGQGEAGRVPTCTLSSGSCPAMCTCSNGIVDCRGKGLTAIPANLPETMTEIRLELNGIKSIPPGAFSPYRKLRRIDLSNNQIAEIAPDAFQGLRSLNSLVLYGNKITDLPRGVFGGLYTLQLLLLNANKINCIRPDAFQDLQNLSLLSLYDNKIQSLAKGTFTSLRAIQTLHLAQNPFICDCNLKWLADFLRTNPIETSGARCASPRRLANKRIGQIKSKKFRCSAKEQYFIPGTEDYQLNSECNSDVVCPHKCRCEANVVECSSLKLTKIPERIPQSTAELRLNNNEISILEATGMFKKLTHLKKINLSNNKVSEIEDGAFEGAASVSELHLTANQLESIRSGMFRGLDGLRTLMLRNNRISCIHNDSFTGLRNVRLLSLYDNQITTVSPGAFDTLQSLSTLNLLANPFNCNCQLAWLGGWLRKRKIVTGNPRCQNPDFLRQIPLQDVAFPDFRCEEGQEEGGCLPRPQCPQECACLDTVVRCSNKHLRALPKGIPKNVTELYLDGNQFTLVPGQLSTFKYLQLVDLSNNKISSLSNSSFTNMSQLTTLILSYNALQCIPPLAFQGLRSLRLLSLHGNDISTLQEGIFADVTSLSHLAIGANPLYCDCHLRWLSSWVKTGYKEPGIARCAGPQDMEGKLLLTTPAKKFECQGPPTLAVQAKCDLCLSSPCQNQGTCHNDPLEVYRCACPSGYKGRDCEVSLDSCSSGPCENGGTCHAQEGEDAPFTCSCPTGFEGPTCGVNTDDCVDHACANGGVCVDGVGNYTCQCPLQYEGKACEQLVDLCSPDLNPCQHEAQCVGTPDGPRCECMPGYAGDNCSENQDDCRDHRCQNGAQCMDEVNSYSCLCAEGYSGQLCEIPPHLPAPKSPCEGTECQNGANCVDQGNRPVCQCLPGFGGPECEKLLSVNFVDRDTYLQFTDLQNWPRANITLQVSTAEDNGILLYNGDNDHIAVELYQGHVRVSYDPGSYPSSAIYSAETINDGQFHTVELVAFDQMVNLSIDGGSPMTMDNFGKHYTLNSEAPLYVGGMPVDVNSAAFRLWQILNGTGFHGCIRNLYINNELQDFTKTQMKPGVVPGCEPCRKLYCLHGICQPNATPGPMCHCEAGWVGLHCDQPADGPCHGHKCVHGQCVPLDALSYSCQCQDGYSGALCNQAGALAEPCRGLQCLHGHCQASGTKGAHCVCDPGFSGELCEQESECRGDPVRDFHQVQRGYAICQTTRPLSWVECRGSCPGQGCCQGLRLKRRKFTFECSDGTSFAEEVEKPTKCGCALCA\n ",
"role": "user"
},
{
"content": "Thought to act as molecular guidance cue in cellular migration, and function appears to be mediated by interaction with roundabout homolog receptors. During neural development involved in axonal navigation at the ventral midline of the neural tube and projection of axons to different regions (By similarity). SLIT1 and SLIT2 together seem to be essential for midline guidance in the forebrain by acting as repulsive signal preventing inappropriate midline crossing by axons projecting from the olfactory bulb.\nSubcellular locations: Secreted\nPredominantly expressed in adult forebrain. Expressed in fetal brain, lung and kidney.",
"role": "assistant"
}
] |
APC13_PONAB
|
Pongo abelii
|
MDSEVQRDGRILDLIDDAWREDKLPYEDVAIPLNELPDPEQDNGGTTESVKEQEMKWTDLALQYLHENVPPIGN
|
Component of the anaphase promoting complex/cyclosome (APC/C), a cell cycle-regulated E3 ubiquitin ligase that controls progression through mitosis and the G1 phase of the cell cycle. The APC/C complex acts by mediating ubiquitination and subsequent degradation of target proteins: it mainly mediates the formation of 'Lys-11'-linked polyubiquitin chains and, to a lower extent, the formation of 'Lys-48'- and 'Lys-63'-linked polyubiquitin chains (By similarity).
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: APC13_PONAB\n - species: Pongo abelii\n - sequence: MDSEVQRDGRILDLIDDAWREDKLPYEDVAIPLNELPDPEQDNGGTTESVKEQEMKWTDLALQYLHENVPPIGN\n ",
"role": "user"
},
{
"content": "Component of the anaphase promoting complex/cyclosome (APC/C), a cell cycle-regulated E3 ubiquitin ligase that controls progression through mitosis and the G1 phase of the cell cycle. The APC/C complex acts by mediating ubiquitination and subsequent degradation of target proteins: it mainly mediates the formation of 'Lys-11'-linked polyubiquitin chains and, to a lower extent, the formation of 'Lys-48'- and 'Lys-63'-linked polyubiquitin chains (By similarity).\nSubcellular locations: Nucleus",
"role": "assistant"
}
] |
ZN223_HUMAN
|
Homo sapiens
|
MTMSKEAVTFKDVAVVFTEEELGLLDLAQRKLYRDVMLENFRNLLSVGHQPFHRDTFHFLREEKFWMMDIATQREGNSGGKIQPEMKTFPEAGPHEGWSCQQIWEEIASDLTRPQDSTIKSSQFFEQGDAHSQVEEGLSIMHTGQKPSNCGKCKQSFSDMSIFDLPQQIRSAEKSHSCDECGKSFCYISALHIHQRVHLGEKLFKCDVCGKEFSQSLHLQTHQRVHTGEKPFKCEQCGRGFRCRSALTVHCKLHMGEKHYNCEACGRAFIHDFQLQKHQRIHTGEKPFKCEICSVSFRLRSSLNRHCVVHTGKKPNSTGEYGKGFIRRLDLCKHQTIHTGEKPYNCKECGKSFRRSSYLLIHQRVHTGEKPYKCDKCGKSYITKSGLDLHHRAHTGERPYNCDDCGKSFRQASSILNHKRLHCRKKPFKCEDCGKKLVYRSYRKDQQKNHSGENPSKCEDCGKRYKRRLNLDIILSLFLNDT
|
May be involved in transcriptional regulation.
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ZN223_HUMAN\n - species: Homo sapiens\n - sequence: MTMSKEAVTFKDVAVVFTEEELGLLDLAQRKLYRDVMLENFRNLLSVGHQPFHRDTFHFLREEKFWMMDIATQREGNSGGKIQPEMKTFPEAGPHEGWSCQQIWEEIASDLTRPQDSTIKSSQFFEQGDAHSQVEEGLSIMHTGQKPSNCGKCKQSFSDMSIFDLPQQIRSAEKSHSCDECGKSFCYISALHIHQRVHLGEKLFKCDVCGKEFSQSLHLQTHQRVHTGEKPFKCEQCGRGFRCRSALTVHCKLHMGEKHYNCEACGRAFIHDFQLQKHQRIHTGEKPFKCEICSVSFRLRSSLNRHCVVHTGKKPNSTGEYGKGFIRRLDLCKHQTIHTGEKPYNCKECGKSFRRSSYLLIHQRVHTGEKPYKCDKCGKSYITKSGLDLHHRAHTGERPYNCDDCGKSFRQASSILNHKRLHCRKKPFKCEDCGKKLVYRSYRKDQQKNHSGENPSKCEDCGKRYKRRLNLDIILSLFLNDT\n ",
"role": "user"
},
{
"content": "May be involved in transcriptional regulation.\nSubcellular locations: Nucleus",
"role": "assistant"
}
] |
PAX9_LEMCA
|
Lemur catta
|
MEPAFGEVNQLGGVFVNGRPLPNAIRLRIVELAQLGIRPCDISRQLRVSHGCVSKILARYNETGSILPGAIGGSKPRVTTPTVVKHIRTYKQRDPGIFAWEIRDRLLADGVCDKYNVPSVSSISRILRNKIGNLAQQGHYDSYKQHQPAPQPALPYNHIYSYPSPITAAAAKVPTPPGVPAIPGSVAMPRTWPSSHSVTDILGIRSITDQVSDSSPYHSPKVEEWSSLGRNNFPAAAPHAVNGLEKGALEQEAKYGQAPNGLPAVSSFVSASSMAPYPTPAQVSPYMTYSAAPSGYVAGHGWQHAGGTPLSPHNCDIPASLAFKGMQAAREGSHSVTASAL
|
Transcription factor required for normal development of thymus, parathyroid glands, ultimobranchial bodies, teeth, skeletal elements of skull and larynx as well as distal limbs.
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PAX9_LEMCA\n - species: Lemur catta\n - sequence: MEPAFGEVNQLGGVFVNGRPLPNAIRLRIVELAQLGIRPCDISRQLRVSHGCVSKILARYNETGSILPGAIGGSKPRVTTPTVVKHIRTYKQRDPGIFAWEIRDRLLADGVCDKYNVPSVSSISRILRNKIGNLAQQGHYDSYKQHQPAPQPALPYNHIYSYPSPITAAAAKVPTPPGVPAIPGSVAMPRTWPSSHSVTDILGIRSITDQVSDSSPYHSPKVEEWSSLGRNNFPAAAPHAVNGLEKGALEQEAKYGQAPNGLPAVSSFVSASSMAPYPTPAQVSPYMTYSAAPSGYVAGHGWQHAGGTPLSPHNCDIPASLAFKGMQAAREGSHSVTASAL\n ",
"role": "user"
},
{
"content": "Transcription factor required for normal development of thymus, parathyroid glands, ultimobranchial bodies, teeth, skeletal elements of skull and larynx as well as distal limbs.\nSubcellular locations: Nucleus",
"role": "assistant"
}
] |
KBP_HUMAN
|
Homo sapiens
|
MANVPWAEVCEKFQAALALSRVELHKNPEKEPYKSKYSARALLEEVKALLGPAPEDEDERPEAEDGPGAGDHALGLPAEVVEPEGPVAQRAVRLAVIEFHLGVNHIDTEELSAGEEHLVKCLRLLRRYRLSHDCISLCIQAQNNLGILWSEREEIETAQAYLESSEALYNQYMKEVGSPPLDPTERFLPEEEKLTEQERSKRFEKVYTHNLYYLAQVYQHLEMFEKAAHYCHSTLKRQLEHNAYHPIEWAINAATLSQFYINKLCFMEARHCLSAANVIFGQTGKISATEDTPEAEGEVPELYHQRKGEIARCWIKYCLTLMQNAQLSMQDNIGELDLDKQSELRALRKKELDEEESIRKKAVQFGTGELCDAISAVEEKVSYLRPLDFEEARELFLLGQHYVFEAKEFFQIDGYVTDHIEVVQDHSALFKVLAFFETDMERRCKMHKRRIAMLEPLTVDLNPQYYLLVNRQIQFEIAHAYYDMMDLKVAIADRLRDPDSHIVKKINNLNKSALKYYQLFLDSLRDPNKVFPEHIGEDVLRPAMLAKFRVARLYGKIITADPKKELENLATSLEHYKFIVDYCEKHPEAAQEIEVELELSKEMVSLLPTKMERFRTKMALT
|
Required for organization of axonal microtubules, and axonal outgrowth and maintenance during peripheral and central nervous system development.
Subcellular locations: Cytoplasm, Cytoskeleton
Highly expressed in heart, brain, ovary, testis, spinal cord and all specific brain regions examined. Moderate expressed at intermediate level in all other adult tissues examined, as well as in fetal liver and brain. Not expressed in blood leukocytes.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: KBP_HUMAN\n - species: Homo sapiens\n - sequence: MANVPWAEVCEKFQAALALSRVELHKNPEKEPYKSKYSARALLEEVKALLGPAPEDEDERPEAEDGPGAGDHALGLPAEVVEPEGPVAQRAVRLAVIEFHLGVNHIDTEELSAGEEHLVKCLRLLRRYRLSHDCISLCIQAQNNLGILWSEREEIETAQAYLESSEALYNQYMKEVGSPPLDPTERFLPEEEKLTEQERSKRFEKVYTHNLYYLAQVYQHLEMFEKAAHYCHSTLKRQLEHNAYHPIEWAINAATLSQFYINKLCFMEARHCLSAANVIFGQTGKISATEDTPEAEGEVPELYHQRKGEIARCWIKYCLTLMQNAQLSMQDNIGELDLDKQSELRALRKKELDEEESIRKKAVQFGTGELCDAISAVEEKVSYLRPLDFEEARELFLLGQHYVFEAKEFFQIDGYVTDHIEVVQDHSALFKVLAFFETDMERRCKMHKRRIAMLEPLTVDLNPQYYLLVNRQIQFEIAHAYYDMMDLKVAIADRLRDPDSHIVKKINNLNKSALKYYQLFLDSLRDPNKVFPEHIGEDVLRPAMLAKFRVARLYGKIITADPKKELENLATSLEHYKFIVDYCEKHPEAAQEIEVELELSKEMVSLLPTKMERFRTKMALT\n ",
"role": "user"
},
{
"content": "Required for organization of axonal microtubules, and axonal outgrowth and maintenance during peripheral and central nervous system development.\nSubcellular locations: Cytoplasm, Cytoskeleton\nHighly expressed in heart, brain, ovary, testis, spinal cord and all specific brain regions examined. Moderate expressed at intermediate level in all other adult tissues examined, as well as in fetal liver and brain. Not expressed in blood leukocytes.",
"role": "assistant"
}
] |
KIF6_HUMAN
|
Homo sapiens
|
MVKQTIQIFARVKPPVRKHQQGIYSIDEDEKLIPSLEIILPRDLADGFVNNKRESYKFKFQRIFDQDANQETVFENIAKPVAGSVLAGYNGTIFAYGQTGSGKTFTITGGAERYSDRGIIPRTLSYIFEQLQKDSSKIYTTHISYLEIYNECGYDLLDPRHEASSLEDLPKVTILEDPDQNIHLKNLTLHQATTEEEALNLLFLGDTNRMIAETPMNQASTRSHCIFTIHLSSKEPGSATVRHAKLHLVDLAGSERVAKTGVGGHLLTEAKYINLSLHYLEQVIIALSEKHRSHIPYRNSMMTSVLRDSLGGNCMTTMIATLSLEKRNLDESISTCRFAQRVALIKNEAVLNEEINPRLVIKRLQKEIQELKDELAMVTGEQRTEALTEAELLQLEKLITSFLEDQDSDSRLEVGADMRKVHHCFHHLKKLLNDKKILENNTVSSESKDQDCQEPLKEEEYRKLRDILKQRDNEINILVNMLKKEKKKAQEALHLAGMDRREFRQSQSPPFRLGNPEEGQRMRLSSAPSQAQDFSILGKRSSLLHKKIGMREEMSLGCQEAFEIFKRDHADSVTIDDNKQILKQRFSEAKALGESINEARSKIGHLKEEITQRHIQQVALGISENMAVPLMPDQQEEKLRSQLEEEKRRYKTMFTRLKALKVEIEHLQLLMDKAKVKLQKEFEVWWAEEATNLQVNSPAVNSLDHTKPFLQTSDSQHEWSQLLSNKSSGGWEVQDQGTGRFDVCDVNARKILPSPCPSPHSQKQSSTSTPLEDSIPKRPVSSIPLTGDSQTDSDIIAFIKARQSILQKQCLGSN
|
Subcellular locations: Cytoplasm, Cytoskeleton
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: KIF6_HUMAN\n - species: Homo sapiens\n - sequence: MVKQTIQIFARVKPPVRKHQQGIYSIDEDEKLIPSLEIILPRDLADGFVNNKRESYKFKFQRIFDQDANQETVFENIAKPVAGSVLAGYNGTIFAYGQTGSGKTFTITGGAERYSDRGIIPRTLSYIFEQLQKDSSKIYTTHISYLEIYNECGYDLLDPRHEASSLEDLPKVTILEDPDQNIHLKNLTLHQATTEEEALNLLFLGDTNRMIAETPMNQASTRSHCIFTIHLSSKEPGSATVRHAKLHLVDLAGSERVAKTGVGGHLLTEAKYINLSLHYLEQVIIALSEKHRSHIPYRNSMMTSVLRDSLGGNCMTTMIATLSLEKRNLDESISTCRFAQRVALIKNEAVLNEEINPRLVIKRLQKEIQELKDELAMVTGEQRTEALTEAELLQLEKLITSFLEDQDSDSRLEVGADMRKVHHCFHHLKKLLNDKKILENNTVSSESKDQDCQEPLKEEEYRKLRDILKQRDNEINILVNMLKKEKKKAQEALHLAGMDRREFRQSQSPPFRLGNPEEGQRMRLSSAPSQAQDFSILGKRSSLLHKKIGMREEMSLGCQEAFEIFKRDHADSVTIDDNKQILKQRFSEAKALGESINEARSKIGHLKEEITQRHIQQVALGISENMAVPLMPDQQEEKLRSQLEEEKRRYKTMFTRLKALKVEIEHLQLLMDKAKVKLQKEFEVWWAEEATNLQVNSPAVNSLDHTKPFLQTSDSQHEWSQLLSNKSSGGWEVQDQGTGRFDVCDVNARKILPSPCPSPHSQKQSSTSTPLEDSIPKRPVSSIPLTGDSQTDSDIIAFIKARQSILQKQCLGSN\n ",
"role": "user"
},
{
"content": "Subcellular locations: Cytoplasm, Cytoskeleton",
"role": "assistant"
}
] |
ANO1_HUMAN
|
Homo sapiens
|
MRVNEKYSTLPAEDRSVHIINICAIEDIGYLPSEGTLLNSLSVDPDAECKYGLYFRDGRRKVDYILVYHHKRPSGNRTLVRRVQHSDTPSGARSVKQDHPLPGKGASLDAGSGEPPMDYHEDDKRFRREEYEGNLLEAGLELERDEDTKIHGVGFVKIHAPWNVLCREAEFLKLKMPTKKMYHINETRGLLKKINSVLQKITDPIQPKVAEHRPQTMKRLSYPFSREKQHLFDLSDKDSFFDSKTRSTIVYEILKRTTCTKAKYSMGITSLLANGVYAAAYPLHDGDYNGENVEFNDRKLLYEEWARYGVFYKYQPIDLVRKYFGEKIGLYFAWLGVYTQMLIPASIVGIIVFLYGCATMDENIPSMEMCDQRHNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSLKKESRNKEKRRHIPEESTNKWKQRVKTAMAGVKLTDKVKLTWRDRFPAYLTNLVSIIFMIAVTFAIVLGVIIYRISMAAALAMNSSPSVRSNIRVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLIFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKLIRYLKLKQQSPPDHEECVKRKQRYEVDYNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAVRAKDIGIWYNILRGIGKLAVIINAFVISFTSDFIPRLVYLYMYSKNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSENKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMREEQDKQQLLETWMEKERQKDEPPCNHHNTKACPDSLGSPAPSHAYHGGVL
|
Calcium-activated chloride channel (CaCC) ( ). Plays a role in transepithelial anion transport and smooth muscle contraction. Required for the normal functioning of the interstitial cells of Cajal (ICCs) which generate electrical pacemaker activity in gastrointestinal smooth muscles. Acts as a major contributor to basal and stimulated chloride conductance in airway epithelial cells and plays an important role in tracheal cartilage development. Required for CFTR activation by enhancing endoplasmic reticulum Ca(2+) store release and is also required for CFTR membrane expression . Required for basal and ATP-dependent mucus secretion in airways and intestine, probably by controlling exocytosis of mucus-filled granules by providing Ca(2+) to an apical signaling compartment (By similarity). Contributes to airway mucus expression induced by interleukins IL3 and IL8 and by the asthma-associated protein CLCA1 and is required for expression of mucin MUC5AC . However, was shown in another study not to be required for MUC5AC expression . Plays a role in the propagation of Ca(2+) waves in Kolliker's organ in the cochlea and contributes to the refinement of auditory brainstem circuitries prior to hearing onset (By similarity). In vomeronasal sensory neurons, modulates spontaneous firing patterns in the absence of stimuli as well as the firing pattern of pheromone-evoked activity (By similarity). Responsible for calcium-activated chloride channel activity in type I taste cells of the vallate papillae (By similarity). Acts as a heat sensor in nociceptive neurons (By similarity). In dorsal root ganglion neurons, plays a role in mediating non-histaminergic Mas-related G-protein coupled receptor (MRGPR)-dependent itching, acting as a downstream effector of MRGPRs (By similarity). In the developing brain, required for the Ca(2+)-dependent process extension of radial glial cells (By similarity).
Calcium-activated chloride channel (CaCC). Contributes to calcium-activated chloride secretion in human sweat gland epithelial cells. Shows increased basal chloride permeability and decreased Ca(2+)-induced chloride permeability.
Calcium-activated chloride channel (CaCC). Shows increased sensitivity to intracellular Ca(2+).
Subcellular locations: Apical cell membrane, Presynapse
In differentiating airway epithelial cells, predominantly intracellular at day 0 but is apically localized by day 30. Expressed in the presynapse of retinal neurons (By similarity).
Expressed in nasal epithelial cells (at protein level) . In the kidney, expressed in the collecting duct (at protein level) . Broadly expressed with higher levels in liver, skeletal muscle and gastrointestinal muscles (, ). Expressed in eccrine sweat glands .
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ANO1_HUMAN\n - species: Homo sapiens\n - sequence: MRVNEKYSTLPAEDRSVHIINICAIEDIGYLPSEGTLLNSLSVDPDAECKYGLYFRDGRRKVDYILVYHHKRPSGNRTLVRRVQHSDTPSGARSVKQDHPLPGKGASLDAGSGEPPMDYHEDDKRFRREEYEGNLLEAGLELERDEDTKIHGVGFVKIHAPWNVLCREAEFLKLKMPTKKMYHINETRGLLKKINSVLQKITDPIQPKVAEHRPQTMKRLSYPFSREKQHLFDLSDKDSFFDSKTRSTIVYEILKRTTCTKAKYSMGITSLLANGVYAAAYPLHDGDYNGENVEFNDRKLLYEEWARYGVFYKYQPIDLVRKYFGEKIGLYFAWLGVYTQMLIPASIVGIIVFLYGCATMDENIPSMEMCDQRHNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSLKKESRNKEKRRHIPEESTNKWKQRVKTAMAGVKLTDKVKLTWRDRFPAYLTNLVSIIFMIAVTFAIVLGVIIYRISMAAALAMNSSPSVRSNIRVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLIFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKLIRYLKLKQQSPPDHEECVKRKQRYEVDYNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAVRAKDIGIWYNILRGIGKLAVIINAFVISFTSDFIPRLVYLYMYSKNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSENKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMREEQDKQQLLETWMEKERQKDEPPCNHHNTKACPDSLGSPAPSHAYHGGVL\n ",
"role": "user"
},
{
"content": "Calcium-activated chloride channel (CaCC) ( ). Plays a role in transepithelial anion transport and smooth muscle contraction. Required for the normal functioning of the interstitial cells of Cajal (ICCs) which generate electrical pacemaker activity in gastrointestinal smooth muscles. Acts as a major contributor to basal and stimulated chloride conductance in airway epithelial cells and plays an important role in tracheal cartilage development. Required for CFTR activation by enhancing endoplasmic reticulum Ca(2+) store release and is also required for CFTR membrane expression . Required for basal and ATP-dependent mucus secretion in airways and intestine, probably by controlling exocytosis of mucus-filled granules by providing Ca(2+) to an apical signaling compartment (By similarity). Contributes to airway mucus expression induced by interleukins IL3 and IL8 and by the asthma-associated protein CLCA1 and is required for expression of mucin MUC5AC . However, was shown in another study not to be required for MUC5AC expression . Plays a role in the propagation of Ca(2+) waves in Kolliker's organ in the cochlea and contributes to the refinement of auditory brainstem circuitries prior to hearing onset (By similarity). In vomeronasal sensory neurons, modulates spontaneous firing patterns in the absence of stimuli as well as the firing pattern of pheromone-evoked activity (By similarity). Responsible for calcium-activated chloride channel activity in type I taste cells of the vallate papillae (By similarity). Acts as a heat sensor in nociceptive neurons (By similarity). In dorsal root ganglion neurons, plays a role in mediating non-histaminergic Mas-related G-protein coupled receptor (MRGPR)-dependent itching, acting as a downstream effector of MRGPRs (By similarity). In the developing brain, required for the Ca(2+)-dependent process extension of radial glial cells (By similarity).\nCalcium-activated chloride channel (CaCC). Contributes to calcium-activated chloride secretion in human sweat gland epithelial cells. Shows increased basal chloride permeability and decreased Ca(2+)-induced chloride permeability.\nCalcium-activated chloride channel (CaCC). Shows increased sensitivity to intracellular Ca(2+).\nSubcellular locations: Apical cell membrane, Presynapse\nIn differentiating airway epithelial cells, predominantly intracellular at day 0 but is apically localized by day 30. Expressed in the presynapse of retinal neurons (By similarity).\nExpressed in nasal epithelial cells (at protein level) . In the kidney, expressed in the collecting duct (at protein level) . Broadly expressed with higher levels in liver, skeletal muscle and gastrointestinal muscles (, ). Expressed in eccrine sweat glands .",
"role": "assistant"
}
] |
SERHL_HUMAN
|
Homo sapiens
|
MAENAAPGLISELKLAVPWGHIAAKAWGSLQGPPVLCLHGWLDNASSFDRLIPLLPQDFYYVAMDFGGHGLSSHYSPGVPYYLQTFVSEIRRVVAALKWNRFSILGHSFGGVVGGMFFCTFPEMVDKLILLDTPLFLLESDEMENLLTYKRRAIEHVLQVEASQEPSHVFSLKQLLQRQRTALTSSAGSCVRIPSGSCRPMSC
|
Putative serine hydrolase.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SERHL_HUMAN\n - species: Homo sapiens\n - sequence: MAENAAPGLISELKLAVPWGHIAAKAWGSLQGPPVLCLHGWLDNASSFDRLIPLLPQDFYYVAMDFGGHGLSSHYSPGVPYYLQTFVSEIRRVVAALKWNRFSILGHSFGGVVGGMFFCTFPEMVDKLILLDTPLFLLESDEMENLLTYKRRAIEHVLQVEASQEPSHVFSLKQLLQRQRTALTSSAGSCVRIPSGSCRPMSC\n ",
"role": "user"
},
{
"content": "Putative serine hydrolase.",
"role": "assistant"
}
] |
CARF_HUMAN
|
Homo sapiens
|
MAQEVSEYLSQNPRVAAWVEALRCDGETDKHWRHRRDFLLRNAGDLAPAGGAASASTDEAADAESGTRNRQLQQLISFSMAWANHVFLGCRYPQKVMDKILSMAEGIKVTDAPTYTTRDELVAKVKKRGISSSNEGVEEPSKKRVIEGKNSSAVEQDHAKTSAKTERASAQQENSSTCIGSAIKSESGNSARSSGISSQNSSTSDGDRSVSSQSSSSVSSQVTTAGSGKASEAEAPDKHGSASFVSLLKSSVNSHMTQSTDSRQQSGSPKKSALEGSSASASQSSSEIEVPLLGSSGSSEVELPLLSSKPSSETASSGLTSKTSSEASVSSSVAKNSSSSGTSLLTPKSSSSTNTSLLTSKSTSQVAASLLASKSSSQTSGSLVSKSTSLASVSQLASKSSSQTSTSQLPSKSTSQSSESSVKFSCKLTNEDVKQKQPFFNRLYKTVAWKLVAVGGFSPNVNHGELLNAAIEALKATLDVFFVPLKELADLPQNKSSQESIVCELRCKSVYLGTGCGKSKENAKAVASREALKLFLKKKVVVKICKRKYRGSEIEDLVLLDEESRPVNLPPALKHPQELL
|
Regulates DNA damage response in a dose-dependent manner through a number of signaling pathways involved in cell proliferation, apoptosis and senescence.
Subcellular locations: Nucleus, Nucleoplasm
Ubiquitously expressed.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CARF_HUMAN\n - species: Homo sapiens\n - sequence: MAQEVSEYLSQNPRVAAWVEALRCDGETDKHWRHRRDFLLRNAGDLAPAGGAASASTDEAADAESGTRNRQLQQLISFSMAWANHVFLGCRYPQKVMDKILSMAEGIKVTDAPTYTTRDELVAKVKKRGISSSNEGVEEPSKKRVIEGKNSSAVEQDHAKTSAKTERASAQQENSSTCIGSAIKSESGNSARSSGISSQNSSTSDGDRSVSSQSSSSVSSQVTTAGSGKASEAEAPDKHGSASFVSLLKSSVNSHMTQSTDSRQQSGSPKKSALEGSSASASQSSSEIEVPLLGSSGSSEVELPLLSSKPSSETASSGLTSKTSSEASVSSSVAKNSSSSGTSLLTPKSSSSTNTSLLTSKSTSQVAASLLASKSSSQTSGSLVSKSTSLASVSQLASKSSSQTSTSQLPSKSTSQSSESSVKFSCKLTNEDVKQKQPFFNRLYKTVAWKLVAVGGFSPNVNHGELLNAAIEALKATLDVFFVPLKELADLPQNKSSQESIVCELRCKSVYLGTGCGKSKENAKAVASREALKLFLKKKVVVKICKRKYRGSEIEDLVLLDEESRPVNLPPALKHPQELL\n ",
"role": "user"
},
{
"content": "Regulates DNA damage response in a dose-dependent manner through a number of signaling pathways involved in cell proliferation, apoptosis and senescence.\nSubcellular locations: Nucleus, Nucleoplasm\nUbiquitously expressed.",
"role": "assistant"
}
] |
CLCN2_HUMAN
|
Homo sapiens
|
MAAAAAEEGMEPRALQYEQTLMYGRYTQDLGAFAKEEAARIRLGGPEPWKGPPSSRAAPELLEYGRSRCARCRVCSVRCHKFLVSRVGEDWIFLVLLGLLMALVSWVMDYAIAACLQAQQWMSRGLNTSILLQYLAWVTYPVVLITFSAGFTQILAPQAVGSGIPEMKTILRGVVLKEYLTLKTFIAKVIGLTCALGSGMPLGKEGPFVHIASMCAALLSKFLSLFGGIYENESRNTEMLAAACAVGVGCCFAAPIGGVLFSIEVTSTFFAVRNYWRGFFAATFSAFIFRVLAVWNRDEETITALFKTRFRLDFPFDLQELPAFAVIGIASGFGGALFVYLNRKIVQVMRKQKTINRFLMRKRLLFPALVTLLISTLTFPPGFGQFMAGQLSQKETLVTLFDNRTWVRQGLVEELEPPSTSQAWNPPRANVFLTLVIFILMKFWMSALATTIPVPCGAFMPVFVIGAAFGRLVGESMAAWFPDGIHTDSSTYRIVPGGYAVVGAAALAGAVTHTVSTAVIVFELTGQIAHILPVMIAVILANAVAQSLQPSLYDSIIRIKKLPYLPELGWGRHQQYRVRVEDIMVRDVPHVALSCTFRDLRLALHRTKGRMLALVESPESMILLGSIERSQVVALLGAQLSPARRRQHMQERRATQTSPLSDQEGPPTPEASVCFQVNTEDSAFPAARGETHKPLKPALKRGPSVTRNLGESPTGSAESAGIALRSLFCGSPPPEAASEKLESCEKRKLKRVRISLASDADLEGEMSPEEILEWEEQQLDEPVNFSDCKIDPAPFQLVERTSLHKTHTIFSLLGVDHAYVTSIGRLIGIVTLKELRKAIEGSVTAQGVKVRPPLASFRDSATSSSDTETTEVHALWGPHSRHGLPREGSPSDSDDKCQ
|
Voltage-gated chloride channel. Chloride channels have several functions including the regulation of cell volume, membrane potential stabilization, signal transduction and transepithelial transport. Involved in the regulation of aldosterone production. The opening of CLCN2 channels at hyperpolarized membrane potentials in the glomerulosa causes cell membrane depolarization, activation of voltage-gated Ca2+ channels and increased expression of aldosterone synthase, the rate-limiting enzyme for aldosterone biosynthesis (, ).
Subcellular locations: Cell membrane
Ubiquitously expressed. Moderately expressed in aortic and coronary vascular smooth muscle cells and expressed at a low level in aortic endothelial cells. Expressed in the adrenal gland, predominantly in the zona glomerulosa .
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CLCN2_HUMAN\n - species: Homo sapiens\n - sequence: MAAAAAEEGMEPRALQYEQTLMYGRYTQDLGAFAKEEAARIRLGGPEPWKGPPSSRAAPELLEYGRSRCARCRVCSVRCHKFLVSRVGEDWIFLVLLGLLMALVSWVMDYAIAACLQAQQWMSRGLNTSILLQYLAWVTYPVVLITFSAGFTQILAPQAVGSGIPEMKTILRGVVLKEYLTLKTFIAKVIGLTCALGSGMPLGKEGPFVHIASMCAALLSKFLSLFGGIYENESRNTEMLAAACAVGVGCCFAAPIGGVLFSIEVTSTFFAVRNYWRGFFAATFSAFIFRVLAVWNRDEETITALFKTRFRLDFPFDLQELPAFAVIGIASGFGGALFVYLNRKIVQVMRKQKTINRFLMRKRLLFPALVTLLISTLTFPPGFGQFMAGQLSQKETLVTLFDNRTWVRQGLVEELEPPSTSQAWNPPRANVFLTLVIFILMKFWMSALATTIPVPCGAFMPVFVIGAAFGRLVGESMAAWFPDGIHTDSSTYRIVPGGYAVVGAAALAGAVTHTVSTAVIVFELTGQIAHILPVMIAVILANAVAQSLQPSLYDSIIRIKKLPYLPELGWGRHQQYRVRVEDIMVRDVPHVALSCTFRDLRLALHRTKGRMLALVESPESMILLGSIERSQVVALLGAQLSPARRRQHMQERRATQTSPLSDQEGPPTPEASVCFQVNTEDSAFPAARGETHKPLKPALKRGPSVTRNLGESPTGSAESAGIALRSLFCGSPPPEAASEKLESCEKRKLKRVRISLASDADLEGEMSPEEILEWEEQQLDEPVNFSDCKIDPAPFQLVERTSLHKTHTIFSLLGVDHAYVTSIGRLIGIVTLKELRKAIEGSVTAQGVKVRPPLASFRDSATSSSDTETTEVHALWGPHSRHGLPREGSPSDSDDKCQ\n ",
"role": "user"
},
{
"content": "Voltage-gated chloride channel. Chloride channels have several functions including the regulation of cell volume, membrane potential stabilization, signal transduction and transepithelial transport. Involved in the regulation of aldosterone production. The opening of CLCN2 channels at hyperpolarized membrane potentials in the glomerulosa causes cell membrane depolarization, activation of voltage-gated Ca2+ channels and increased expression of aldosterone synthase, the rate-limiting enzyme for aldosterone biosynthesis (, ).\nSubcellular locations: Cell membrane\nUbiquitously expressed. Moderately expressed in aortic and coronary vascular smooth muscle cells and expressed at a low level in aortic endothelial cells. Expressed in the adrenal gland, predominantly in the zona glomerulosa .",
"role": "assistant"
}
] |
ITBP1_HUMAN
|
Homo sapiens
|
MFRKGKKRHSSSSSQSSEISTKSKSVDSSLGGLSRSSTVASLDTDSTKSSGQSNNNSDTCAEFRIKYVGAIEKLKLSEGKGLEGPLDLINYIDVAQQDGKLPFVPPEEEFIMGVSKYGIKVSTSDQYDVLHRHALYLIIRMVCYDDGLGAGKSLLALKTTDASNEEYSLWVYQCNSLEQAQAICKVLSTAFDSVLTSEKP
|
Key regulator of the integrin-mediated cell-matrix interaction signaling by binding to the ITGB1 cytoplasmic tail and preventing the activation of integrin alpha-5/beta-1 (heterodimer of ITGA5 and ITGB1) by talin or FERMT1. Plays a role in cell proliferation, differentiation, spreading, adhesion and migration in the context of mineralization and bone development and angiogenesis. Stimulates cellular proliferation in a fibronectin-dependent manner. Involved in the regulation of beta-1 integrin-containing focal adhesion (FA) site dynamics by controlling its assembly rate during cell adhesion; inhibits beta-1 integrin clustering within FA by directly competing with talin TLN1, and hence stimulates osteoblast spreading and migration in a fibronectin- and/or collagen-dependent manner. Acts as a guanine nucleotide dissociation inhibitor (GDI) by regulating Rho family GTPases during integrin-mediated cell matrix adhesion; reduces the level of active GTP-bound form of both CDC42 and RAC1 GTPases upon cell adhesion to fibronectin. Stimulates the release of active CDC42 from the membranes to maintain it in an inactive cytoplasmic pool. Participates in the translocation of the Rho-associated protein kinase ROCK1 to membrane ruffles at cell leading edges of the cell membrane, leading to an increase of myoblast cell migration on laminin. Plays a role in bone mineralization at a late stage of osteoblast differentiation; modulates the dynamic formation of focal adhesions into fibrillar adhesions, which are adhesive structures responsible for fibronectin deposition and fibrillogenesis. Plays a role in blood vessel development; acts as a negative regulator of angiogenesis by attenuating endothelial cell proliferation and migration, lumen formation and sprouting angiogenesis by promoting AKT phosphorylation and inhibiting ERK1/2 phosphorylation through activation of the Notch signaling pathway. Promotes transcriptional activity of the MYC promoter.
Subcellular locations: Nucleus, Cytoplasm, Cytoplasm, Cytoskeleton, Cell membrane, Cell projection, Lamellipodium, Cell projection, Ruffle
Nucleocytoplasmic shuttling protein; shuttles between nucleus and cytoplasm in a integrin-dependent manner; probably sequestered in the cytosol by ITGB1. Its localization is dependent on the stage of cell spreading on fibronectin; cytoplasmic in case of round cells, corresponding to the initial step of cell spreading, or nuclear in case of well spread cells. Colocalizes with ROCK1 and NME2 at beta-1 integrin engagement sites. Together with ITGB1 and NME2 is recruited to beta-1 integrin-rich peripheral ruffles and lamellipodia during initial cell spreading on fibronectin and/or collagen.
Expressed in endothelial cells and fibroblasts (at protein level). Ubiquitously expressed. Expressed in intestine, colon, testis, ovary, thymus, spleen and prostate.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: ITBP1_HUMAN\n - species: Homo sapiens\n - sequence: MFRKGKKRHSSSSSQSSEISTKSKSVDSSLGGLSRSSTVASLDTDSTKSSGQSNNNSDTCAEFRIKYVGAIEKLKLSEGKGLEGPLDLINYIDVAQQDGKLPFVPPEEEFIMGVSKYGIKVSTSDQYDVLHRHALYLIIRMVCYDDGLGAGKSLLALKTTDASNEEYSLWVYQCNSLEQAQAICKVLSTAFDSVLTSEKP\n ",
"role": "user"
},
{
"content": "Key regulator of the integrin-mediated cell-matrix interaction signaling by binding to the ITGB1 cytoplasmic tail and preventing the activation of integrin alpha-5/beta-1 (heterodimer of ITGA5 and ITGB1) by talin or FERMT1. Plays a role in cell proliferation, differentiation, spreading, adhesion and migration in the context of mineralization and bone development and angiogenesis. Stimulates cellular proliferation in a fibronectin-dependent manner. Involved in the regulation of beta-1 integrin-containing focal adhesion (FA) site dynamics by controlling its assembly rate during cell adhesion; inhibits beta-1 integrin clustering within FA by directly competing with talin TLN1, and hence stimulates osteoblast spreading and migration in a fibronectin- and/or collagen-dependent manner. Acts as a guanine nucleotide dissociation inhibitor (GDI) by regulating Rho family GTPases during integrin-mediated cell matrix adhesion; reduces the level of active GTP-bound form of both CDC42 and RAC1 GTPases upon cell adhesion to fibronectin. Stimulates the release of active CDC42 from the membranes to maintain it in an inactive cytoplasmic pool. Participates in the translocation of the Rho-associated protein kinase ROCK1 to membrane ruffles at cell leading edges of the cell membrane, leading to an increase of myoblast cell migration on laminin. Plays a role in bone mineralization at a late stage of osteoblast differentiation; modulates the dynamic formation of focal adhesions into fibrillar adhesions, which are adhesive structures responsible for fibronectin deposition and fibrillogenesis. Plays a role in blood vessel development; acts as a negative regulator of angiogenesis by attenuating endothelial cell proliferation and migration, lumen formation and sprouting angiogenesis by promoting AKT phosphorylation and inhibiting ERK1/2 phosphorylation through activation of the Notch signaling pathway. Promotes transcriptional activity of the MYC promoter.\nSubcellular locations: Nucleus, Cytoplasm, Cytoplasm, Cytoskeleton, Cell membrane, Cell projection, Lamellipodium, Cell projection, Ruffle\nNucleocytoplasmic shuttling protein; shuttles between nucleus and cytoplasm in a integrin-dependent manner; probably sequestered in the cytosol by ITGB1. Its localization is dependent on the stage of cell spreading on fibronectin; cytoplasmic in case of round cells, corresponding to the initial step of cell spreading, or nuclear in case of well spread cells. Colocalizes with ROCK1 and NME2 at beta-1 integrin engagement sites. Together with ITGB1 and NME2 is recruited to beta-1 integrin-rich peripheral ruffles and lamellipodia during initial cell spreading on fibronectin and/or collagen.\nExpressed in endothelial cells and fibroblasts (at protein level). Ubiquitously expressed. Expressed in intestine, colon, testis, ovary, thymus, spleen and prostate.",
"role": "assistant"
}
] |
R3HD4_HUMAN
|
Homo sapiens
|
MVALENPECGPEAAEGTPGGRRLLPLPSCLPALASSQVKRLSASRRKQHFINQAVRNSDLVPKAKGRKSLQRLENTQYLLTLLETDGGLPGLEDGDLAPPASPGIFAEACNNATYVEVWNDFMNRSGEEQERVLRYLEDEGRSKARRRGPGRGEDRRREDPAYTPRECFQRISRRLRAVLKRSRIPMETLETWEERLLRFFSVSPQAVYTAMLDNSFERLLLHAVCQYMDLISASADLEGKRQMKVSNRHLDFLPPGLLLSAYLEQHS
|
Subcellular locations: Nucleus
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: R3HD4_HUMAN\n - species: Homo sapiens\n - sequence: MVALENPECGPEAAEGTPGGRRLLPLPSCLPALASSQVKRLSASRRKQHFINQAVRNSDLVPKAKGRKSLQRLENTQYLLTLLETDGGLPGLEDGDLAPPASPGIFAEACNNATYVEVWNDFMNRSGEEQERVLRYLEDEGRSKARRRGPGRGEDRRREDPAYTPRECFQRISRRLRAVLKRSRIPMETLETWEERLLRFFSVSPQAVYTAMLDNSFERLLLHAVCQYMDLISASADLEGKRQMKVSNRHLDFLPPGLLLSAYLEQHS\n ",
"role": "user"
},
{
"content": "Subcellular locations: Nucleus",
"role": "assistant"
}
] |
SYN3_HUMAN
|
Homo sapiens
|
MNFLRRRLSDSSFMANLPNGYMTDLQRPDSSTSSPASPAMERRHPQPLAASFSSPGSSLFSSLSSAMKQAPQATSGLMEPPGPSTPIVQRPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQVVRNGTKVVSRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLPMPGGTAPSPLRPWAPQIKSAKSPGQAQLGPQLGQPQPRPPPQGGPRQAQSPQPQRSGSPSQQRLSPQGQQPLSPQSGSPQQQRSPGSPQLSRASSGSSPNQASKPGATLASQPRPPVQGRSTSQQGEESKKPAPPHPHLNKSQSLTNSLSTSDTSQRGTPSEDEAKAETIRNLRKSFASLFSD
|
May be involved in the regulation of neurotransmitter release and synaptogenesis.
Subcellular locations: Cytoplasmic vesicle, Secretory vesicle, Synaptic vesicle membrane
Peripheral membrane protein localized to the cytoplasmic surface of synaptic vesicles.
Neuron specific. Detected predominantly in brain.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: SYN3_HUMAN\n - species: Homo sapiens\n - sequence: MNFLRRRLSDSSFMANLPNGYMTDLQRPDSSTSSPASPAMERRHPQPLAASFSSPGSSLFSSLSSAMKQAPQATSGLMEPPGPSTPIVQRPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQVVRNGTKVVSRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLPMPGGTAPSPLRPWAPQIKSAKSPGQAQLGPQLGQPQPRPPPQGGPRQAQSPQPQRSGSPSQQRLSPQGQQPLSPQSGSPQQQRSPGSPQLSRASSGSSPNQASKPGATLASQPRPPVQGRSTSQQGEESKKPAPPHPHLNKSQSLTNSLSTSDTSQRGTPSEDEAKAETIRNLRKSFASLFSD\n ",
"role": "user"
},
{
"content": "May be involved in the regulation of neurotransmitter release and synaptogenesis.\nSubcellular locations: Cytoplasmic vesicle, Secretory vesicle, Synaptic vesicle membrane\nPeripheral membrane protein localized to the cytoplasmic surface of synaptic vesicles.\nNeuron specific. Detected predominantly in brain.",
"role": "assistant"
}
] |
PP1RB_PANTR
|
Pan troglodytes
|
MAEAGAGLSETVTETTVTVTTEPENRSLTIKLRKRKPEKKVEWTSDTVDNEHMGRRSSKCCCIYEKPRAFGESSTESDEEEEEGCGHTHCVRGHRKGRRRATLGPTPTTPPQPPDPSQPPPGPMQH
|
Atypical E3 ubiquitin-protein ligase which ubiquitinates TLR2 at 'Lys-754' leading to its degradation by the proteasome. Plays a role in regulating inflammatory cytokine release and gram-positive bacterial clearance by functioning, in part, through the ubiquitination and degradation of TLR2. Inhibitor of protein phosphatase 1.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PP1RB_PANTR\n - species: Pan troglodytes\n - sequence: MAEAGAGLSETVTETTVTVTTEPENRSLTIKLRKRKPEKKVEWTSDTVDNEHMGRRSSKCCCIYEKPRAFGESSTESDEEEEEGCGHTHCVRGHRKGRRRATLGPTPTTPPQPPDPSQPPPGPMQH\n ",
"role": "user"
},
{
"content": "Atypical E3 ubiquitin-protein ligase which ubiquitinates TLR2 at 'Lys-754' leading to its degradation by the proteasome. Plays a role in regulating inflammatory cytokine release and gram-positive bacterial clearance by functioning, in part, through the ubiquitination and degradation of TLR2. Inhibitor of protein phosphatase 1.",
"role": "assistant"
}
] |
MAGAB_HUMAN
|
Homo sapiens
|
METQFRRGGLGCSPASIKRKKKREDSGDFGLQVSTMFSEDDFQSTERAPYGPQLQWSQDLPRVQVFREQANLEDRSPRRTQRITGGEQVLWGPITQIFPTVRPADLTRVIMPLEQRSQHCKPEEGLQAQEEDLGLVGAQALQAEEQEAAFFSSTLNVGTLEELPAAESPSPPQSPQEESFSPTAMDAIFGSLSDEGSGSQEKEGPSTSPDLIDPESFSQDILHDKIIDLVHLLLRKYRVKGLITKAEMLGSVIKNYEDYFPEIFREASVCMQLLFGIDVKEVDPTSHSYVLVTSLNLSYDGIQCNEQSMPKSGLLIIVLGVIFMEGNCIPEEVMWEVLSIMGVYAGREHFLFGEPKRLLTQNWVQEKYLVYRQVPGTDPACYEFLWGPRAHAETSKMKVLEYIANANGRDPTSYPSLYEDALREEGEGV
|
Acts as androgen receptor coregulator that increases androgen receptor activity by modulating the receptors interdomain interaction. May play a role in embryonal development and tumor transformation or aspects of tumor progression.
Subcellular locations: Nucleus, Cytoplasm
Expressed in tumors of several types, such as melanoma, head and neck squamous cell carcinoma, lung carcinoma and breast carcinoma. Expressed in testis, ovary, prostate, cancerous prostate, breast and adrenal tissue.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: MAGAB_HUMAN\n - species: Homo sapiens\n - sequence: METQFRRGGLGCSPASIKRKKKREDSGDFGLQVSTMFSEDDFQSTERAPYGPQLQWSQDLPRVQVFREQANLEDRSPRRTQRITGGEQVLWGPITQIFPTVRPADLTRVIMPLEQRSQHCKPEEGLQAQEEDLGLVGAQALQAEEQEAAFFSSTLNVGTLEELPAAESPSPPQSPQEESFSPTAMDAIFGSLSDEGSGSQEKEGPSTSPDLIDPESFSQDILHDKIIDLVHLLLRKYRVKGLITKAEMLGSVIKNYEDYFPEIFREASVCMQLLFGIDVKEVDPTSHSYVLVTSLNLSYDGIQCNEQSMPKSGLLIIVLGVIFMEGNCIPEEVMWEVLSIMGVYAGREHFLFGEPKRLLTQNWVQEKYLVYRQVPGTDPACYEFLWGPRAHAETSKMKVLEYIANANGRDPTSYPSLYEDALREEGEGV\n ",
"role": "user"
},
{
"content": "Acts as androgen receptor coregulator that increases androgen receptor activity by modulating the receptors interdomain interaction. May play a role in embryonal development and tumor transformation or aspects of tumor progression.\nSubcellular locations: Nucleus, Cytoplasm\nExpressed in tumors of several types, such as melanoma, head and neck squamous cell carcinoma, lung carcinoma and breast carcinoma. Expressed in testis, ovary, prostate, cancerous prostate, breast and adrenal tissue.",
"role": "assistant"
}
] |
CRGC_HUMAN
|
Homo sapiens
|
MGKITFYEDRAFQGRSYETTTDCPNLQPYFSRCNSIRVESGCWMLYERPNYQGQQYLLRRGEYPDYQQWMGLSDSIRSCCLIPQTVSHRLRLYEREDHKGLMMELSEDCPSIQDRFHLSEIRSLHVLEGCWVLYELPNYRGRQYLLRPQEYRRCQDWGAMDAKAGSLRRVVDLY
|
Crystallins are the dominant structural components of the vertebrate eye lens.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: CRGC_HUMAN\n - species: Homo sapiens\n - sequence: MGKITFYEDRAFQGRSYETTTDCPNLQPYFSRCNSIRVESGCWMLYERPNYQGQQYLLRRGEYPDYQQWMGLSDSIRSCCLIPQTVSHRLRLYEREDHKGLMMELSEDCPSIQDRFHLSEIRSLHVLEGCWVLYELPNYRGRQYLLRPQEYRRCQDWGAMDAKAGSLRRVVDLY\n ",
"role": "user"
},
{
"content": "Crystallins are the dominant structural components of the vertebrate eye lens.",
"role": "assistant"
}
] |
PP4R2_PONAB
|
Pongo abelii
|
MDVERLQEALKDFEKRGKKEVCPVLDQFLCHVAKTGETMIQWSQFKGYFIFKLEKVMDDFRTSAPEPRGPPNPNVEYIPFDEMKERILKIVTGFNGIPFTIQRLCELLTDPRRNYTGTDKFLRGVEKNVMVVSCVYPSSEKNNSSSLNRMNGVMFPGNSPSYTERSNINGPGTPRPLNRPKVSLSAPMTTNGLPESTDSKEANLQQNEEKSHSDSSTSESEVSSVSPLKNKHPDEDAVEAEGHEVKRLRFDKEGEVRETASQTTSSEISSAVVGETETSSSSQDKDKDSRCTRQHCTEEDEEEDEEEEEESFMTSREMIPERKNQEKESDDALTVNEETSEENNQMEESDVSQAEKDLLHSEGSENEGPVSNDSSDCHETEELVGSNSSKTGEILSESSMENDDEATEVTDEPMEQD
|
Regulatory subunit of serine/threonine-protein phosphatase 4 (PP4). May regulate the activity of PPP4C at centrosomal microtubule organizing centers. Its interaction with the SMN complex leads to enhance the temporal localization of snRNPs, suggesting a role of PPP4C in maturation of spliceosomal snRNPs. The PPP4C-PPP4R2-PPP4R3A PP4 complex specifically dephosphorylates H2AX phosphorylated on 'Ser-140' (gamma-H2AX) generated during DNA replication and required for DNA double strand break repair (By similarity). Mediates RPA2 dephosphorylation by recruiting PPP4C to RPA2 in a DNA damage-dependent manner. RPA2 dephosphorylation is required for the efficient RPA2-mediated recruitment of RAD51 to chromatin following double strand breaks, an essential step for DNA repair (By similarity).
Subcellular locations: Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Nucleus
Ionizing radiation induces relocalization to nuclear foci and colocalization with RPA2.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PP4R2_PONAB\n - species: Pongo abelii\n - sequence: MDVERLQEALKDFEKRGKKEVCPVLDQFLCHVAKTGETMIQWSQFKGYFIFKLEKVMDDFRTSAPEPRGPPNPNVEYIPFDEMKERILKIVTGFNGIPFTIQRLCELLTDPRRNYTGTDKFLRGVEKNVMVVSCVYPSSEKNNSSSLNRMNGVMFPGNSPSYTERSNINGPGTPRPLNRPKVSLSAPMTTNGLPESTDSKEANLQQNEEKSHSDSSTSESEVSSVSPLKNKHPDEDAVEAEGHEVKRLRFDKEGEVRETASQTTSSEISSAVVGETETSSSSQDKDKDSRCTRQHCTEEDEEEDEEEEEESFMTSREMIPERKNQEKESDDALTVNEETSEENNQMEESDVSQAEKDLLHSEGSENEGPVSNDSSDCHETEELVGSNSSKTGEILSESSMENDDEATEVTDEPMEQD\n ",
"role": "user"
},
{
"content": "Regulatory subunit of serine/threonine-protein phosphatase 4 (PP4). May regulate the activity of PPP4C at centrosomal microtubule organizing centers. Its interaction with the SMN complex leads to enhance the temporal localization of snRNPs, suggesting a role of PPP4C in maturation of spliceosomal snRNPs. The PPP4C-PPP4R2-PPP4R3A PP4 complex specifically dephosphorylates H2AX phosphorylated on 'Ser-140' (gamma-H2AX) generated during DNA replication and required for DNA double strand break repair (By similarity). Mediates RPA2 dephosphorylation by recruiting PPP4C to RPA2 in a DNA damage-dependent manner. RPA2 dephosphorylation is required for the efficient RPA2-mediated recruitment of RAD51 to chromatin following double strand breaks, an essential step for DNA repair (By similarity).\nSubcellular locations: Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Nucleus\nIonizing radiation induces relocalization to nuclear foci and colocalization with RPA2.",
"role": "assistant"
}
] |
FLII_HUMAN
|
Homo sapiens
|
MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANSLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDTIPNQLFINLTDLLYLDLSENRLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMTALQTLHLRSTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQITELSLCIDQWVHVETLNLSRNQLTSLPSAICKLSKLKKLYLNSNKLDFDGLPSGIGKLTNLEEFMAANNNLELVPESLCRCPKLRKLVLNKNHLVTLPEAIHFLTEIEVLDVRENPNLVMPPKPADRAAEWYNIDFSLQNQLRLAGASPATVAAAAAAGSGPKDPMARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEESADARAPSGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIKLEPVPLKGTSLDPRFVFLLDRGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQELPEFWEALGGEPSEIKKHVPEDFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKQRPKVELMPRMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHATVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQSPGLSGKVKRDAEKKDQMKADLTALFLPRQPPMSLAEAEQLMEEWNEDLDGMEGFVLEGKKFARLPEEEFGHFYTQDCYVFLCRYWVPVEYEEEEKKEDKEEKAEGKEGEEATAEAEEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLSHFKRKFIIHRGKRKAVQGAQQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGQEVYMWVGTQTSQVEIKLSLKACQVYIQHMRSKEHERPRRLRLVRKGNEQHAFTRCFHAWSAFCKALA
|
May play a role as coactivator in transcriptional activation by hormone-activated nuclear receptors (NR) and acts in cooperation with NCOA2 and CARM1. Involved in estrogen hormone signaling. Involved in early embryonic development (By similarity). May play a role in regulation of cytoskeletal rearrangements involved in cytokinesis and cell migration, by inhibiting Rac1-dependent paxillin phosphorylation.
Subcellular locations: Nucleus, Cytoplasm, Cytoskeleton, Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Cell junction, Focal adhesion
Colocalizes to actin-rich structures in blastocysts and, together with HRAS, RHOA and CDC42, in migrating fibroblasts. Localizes to centrosomes (By similarity).
Strongest expression in skeletal muscle with high expression also in the heart and lung.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: FLII_HUMAN\n - species: Homo sapiens\n - sequence: MEATGVLPFVRGVDLSGNDFKGGYFPENVKAMTSLRWLKLNRTGLCYLPEELAALQKLEHLSVSHNNLTTLHGELSSLPSLRAIVARANSLKNSGVPDDIFKLDDLSVLDLSHNQLTECPRELENAKNMLVLNLSHNSIDTIPNQLFINLTDLLYLDLSENRLESLPPQMRRLVHLQTLVLNGNPLLHAQLRQLPAMTALQTLHLRSTQRTQSNLPTSLEGLSNLADVDLSCNDLTRVPECLYTLPSLRRLNLSSNQITELSLCIDQWVHVETLNLSRNQLTSLPSAICKLSKLKKLYLNSNKLDFDGLPSGIGKLTNLEEFMAANNNLELVPESLCRCPKLRKLVLNKNHLVTLPEAIHFLTEIEVLDVRENPNLVMPPKPADRAAEWYNIDFSLQNQLRLAGASPATVAAAAAAGSGPKDPMARKMRLRRRKDSAQDDQAKQVLKGMSDVAQEKNKKQEESADARAPSGKVRRWDQGLEKPRLDYSEFFTEDVGQLPGLTIWQIENFVPVLVEEAFHGKFYEADCYIVLKTFLDDSGSLNWEIYYWIGGEATLDKKACSAIHAVNLRNYLGAECRTVREEMGDESEEFLQVFDNDISYIEGGTASGFYTVEDTHYVTRMYRVYGKKNIKLEPVPLKGTSLDPRFVFLLDRGLDIYVWRGAQATLSSTTKARLFAEKINKNERKGKAEITLLVQGQELPEFWEALGGEPSEIKKHVPEDFWPPQPKLYKVGLGLGYLELPQINYKLSVEHKQRPKVELMPRMRLLQSLLDTRCVYILDCWSDVFIWLGRKSPRLVRAAALKLGQELCGMLHRPRHATVSRSLEGTEAQVFKAKFKNWDDVLTVDYTRNAEAVLQSPGLSGKVKRDAEKKDQMKADLTALFLPRQPPMSLAEAEQLMEEWNEDLDGMEGFVLEGKKFARLPEEEFGHFYTQDCYVFLCRYWVPVEYEEEEKKEDKEEKAEGKEGEEATAEAEEKQPEEDFQCIVYFWQGREASNMGWLTFTFSLQKKFESLFPGKLEVVRMTQQQENPKFLSHFKRKFIIHRGKRKAVQGAQQPSLYQIRTNGSALCTRCIQINTDSSLLNSEFCFILKVPFESEDNQGIVYAWVGRASDPDEAKLAEDILNTMFDTSYSKQVINEGEEPENFFWVGIGAQKPYDDDAEYMKHTRLFRCSNEKGYFAVTEKCSDFCQDDLADDDIMLLDNGQEVYMWVGTQTSQVEIKLSLKACQVYIQHMRSKEHERPRRLRLVRKGNEQHAFTRCFHAWSAFCKALA\n ",
"role": "user"
},
{
"content": "May play a role as coactivator in transcriptional activation by hormone-activated nuclear receptors (NR) and acts in cooperation with NCOA2 and CARM1. Involved in estrogen hormone signaling. Involved in early embryonic development (By similarity). May play a role in regulation of cytoskeletal rearrangements involved in cytokinesis and cell migration, by inhibiting Rac1-dependent paxillin phosphorylation.\nSubcellular locations: Nucleus, Cytoplasm, Cytoskeleton, Cytoplasm, Cytoskeleton, Microtubule organizing center, Centrosome, Cell junction, Focal adhesion\nColocalizes to actin-rich structures in blastocysts and, together with HRAS, RHOA and CDC42, in migrating fibroblasts. Localizes to centrosomes (By similarity).\nStrongest expression in skeletal muscle with high expression also in the heart and lung.",
"role": "assistant"
}
] |
PILRA_HUMAN
|
Homo sapiens
|
MGRPLLLPLLPLLLPPAFLQPSGSTGSGPSYLYGVTQPKHLSASMGGSVEIPFSFYYPWELATAPDVRISWRRGHFHRQSFYSTRPPSIHKDYVNRLFLNWTEGQKSGFLRISNLQKQDQSVYFCRVELDTRSSGRQQWQSIEGTKLSITQAVTTTTQRPSSMTTTWRLSSTTTTTGLRVTQGKRRSDSWHISLETAVGVAVAVTVLGIMILGLICLLRWRRRKGQQRTKATTPAREPFQNTEEPYENIRNEGQNTDPKLNPKDDGIVYASLALSSSTSPRAPPSHRPLKSPQNETLYSVLKA
|
Paired receptors consist of highly related activating and inhibitory receptors and are widely involved in the regulation of the immune system. PILRA is thought to act as a cellular signaling inhibitory receptor by recruiting cytoplasmic phosphatases like PTPN6/SHP-1 and PTPN11/SHP-2 via their SH2 domains that block signal transduction through dephosphorylation of signaling molecules. Receptor for PIANP.
(Microbial infection) Acts as an entry co-receptor for herpes simplex virus 1.
Subcellular locations: Cell membrane
Subcellular locations: Cell membrane
Subcellular locations: Secreted
Subcellular locations: Secreted
Predominantly detected in hemopoietic tissues and is expressed by monocytes, macrophages, and granulocytes, but not by lymphocytes. Also strongly expressed by dendritic cells (DC); preferentially by CD14+/CD1a- DC derived from CD34+ progenitors. Also expressed by CD11c+ blood and tonsil DC, but not by CD11c- DC precursors.
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: PILRA_HUMAN\n - species: Homo sapiens\n - sequence: MGRPLLLPLLPLLLPPAFLQPSGSTGSGPSYLYGVTQPKHLSASMGGSVEIPFSFYYPWELATAPDVRISWRRGHFHRQSFYSTRPPSIHKDYVNRLFLNWTEGQKSGFLRISNLQKQDQSVYFCRVELDTRSSGRQQWQSIEGTKLSITQAVTTTTQRPSSMTTTWRLSSTTTTTGLRVTQGKRRSDSWHISLETAVGVAVAVTVLGIMILGLICLLRWRRRKGQQRTKATTPAREPFQNTEEPYENIRNEGQNTDPKLNPKDDGIVYASLALSSSTSPRAPPSHRPLKSPQNETLYSVLKA\n ",
"role": "user"
},
{
"content": "Paired receptors consist of highly related activating and inhibitory receptors and are widely involved in the regulation of the immune system. PILRA is thought to act as a cellular signaling inhibitory receptor by recruiting cytoplasmic phosphatases like PTPN6/SHP-1 and PTPN11/SHP-2 via their SH2 domains that block signal transduction through dephosphorylation of signaling molecules. Receptor for PIANP.\n(Microbial infection) Acts as an entry co-receptor for herpes simplex virus 1.\nSubcellular locations: Cell membrane\nSubcellular locations: Cell membrane\nSubcellular locations: Secreted\nSubcellular locations: Secreted\nPredominantly detected in hemopoietic tissues and is expressed by monocytes, macrophages, and granulocytes, but not by lymphocytes. Also strongly expressed by dendritic cells (DC); preferentially by CD14+/CD1a- DC derived from CD34+ progenitors. Also expressed by CD11c+ blood and tonsil DC, but not by CD11c- DC precursors.",
"role": "assistant"
}
] |
TM145_HUMAN
|
Homo sapiens
|
MEPLRAPALRRLLPPLLLLLLSLPPRARAKYVRGNLSSKEDWVFLTRFCFLSDYGRLDFRFRYPEAKCCQNILLYFDDPSQWPAVYKAGDKDCLAKESVIRPENNQVINLTTQYAWSGCQVVSEEGTRYLSCSSGRSFRSGDGLQLEYEMVLTNGKSFWTRHFSADEFGILETDVTFLLIFILIFFLSCYFGYLLKGRQLLHTTYKMFMAAAGVEVLSLLFFCIYWGQYATDGIGNESVKILAKLLFSSSFLIFLLMLILLGKGFTVTRGRISHAGSVKLSVYMTLYTLTHVVLLIYEAEFFDPGQVLYTYESPAGYGLIGLQVAAYVWFCYAVLVSLRHFPEKQPFYVPFFAAYTLWFFAVPVMALIANFGIPKWAREKIVNGIQLGIHLYAHGVFLIMTRPSAANKNFPYHVRTSQIASAGVPGPGGSQSADKAFPQHVYGNVTFISDSVPNFTELFSIPPPATSPLPRAAPDSGLPLFRDLRPPGPLRDL
|
Subcellular locations: Membrane
|
[
{
"content": "You’re a helpful AI assistant.\nYou are given information about a protein entry from the UniProtKB Swiss-Prot dataset for primates (including humans).\nEach entry contains the following columns:\n- protein_name\n- species\n- sequence\n\nYour task is to generate the annotation for this protein, which may include likely function, subcellular location, and/or tissue-specific expression — based on UniProt-style descriptions. \nKeep the response concise and factual, written in plain English.\n",
"role": "system"
},
{
"content": "Here is the protein entry:\n - protein_name: TM145_HUMAN\n - species: Homo sapiens\n - sequence: MEPLRAPALRRLLPPLLLLLLSLPPRARAKYVRGNLSSKEDWVFLTRFCFLSDYGRLDFRFRYPEAKCCQNILLYFDDPSQWPAVYKAGDKDCLAKESVIRPENNQVINLTTQYAWSGCQVVSEEGTRYLSCSSGRSFRSGDGLQLEYEMVLTNGKSFWTRHFSADEFGILETDVTFLLIFILIFFLSCYFGYLLKGRQLLHTTYKMFMAAAGVEVLSLLFFCIYWGQYATDGIGNESVKILAKLLFSSSFLIFLLMLILLGKGFTVTRGRISHAGSVKLSVYMTLYTLTHVVLLIYEAEFFDPGQVLYTYESPAGYGLIGLQVAAYVWFCYAVLVSLRHFPEKQPFYVPFFAAYTLWFFAVPVMALIANFGIPKWAREKIVNGIQLGIHLYAHGVFLIMTRPSAANKNFPYHVRTSQIASAGVPGPGGSQSADKAFPQHVYGNVTFISDSVPNFTELFSIPPPATSPLPRAAPDSGLPLFRDLRPPGPLRDL\n ",
"role": "user"
},
{
"content": "Subcellular locations: Membrane",
"role": "assistant"
}
] |
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