ids stringlengths 6 10 | seqs stringlengths 11 1.02k | texts stringlengths 108 11.1k |
|---|---|---|
Q5P3C5 | MKSASTVVATRILGLDPGLRITGFGVIDKLGNQLRYVASGCIRTRDGELPGRLKTLLDGVREVVAAYTPDQVAVEKVFVNVNPQSTLLLGQARGAVICGAVSCDLPVHEYTALQVKQAVVGYGKAAKEQVQHMVQRLLALDGCPSPDAADALACAICHAHGGQGTAGAFAGRRRAGRILVAPDPG | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
C1DRG0 | MTLILGIDPGSRITGFGVVRDGGRGCEYIASGCIRTGSGSLPERLQAVYRGVTEIIRSHGPVTMGIEQVFMARNADSALKLGQARGAAIVAAAEAGLEIAEYTATQVKQAIVGSGGADKRQVQMMVMHLLRLVQKPQIDASDALAIALCHAHHRQSLIPHGLDGARRRGGRLRL | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q5LAS7 | MIQPVKEKIILGIDPGTTIMGYGVLRVCGTRPEMIAMGIIDLRKFGNHYLKLRHIHERVLSIIESYLPDELAIEAPFFGKNVQSMLKLGRAQGVAMAAALSRDIPITEYAPLKIKMAITGNGQASKEQVADMLQRMLHFAKEDMPVFMDATDGLAAAYCHFLQMGRPVMEKGYSGWKDFIAKNPERVK | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
A9IYK9 | MAETIRIIGIDPGLRYTGWGVIDLAGNRLQFVAAGTVSSDVQCDLASRLCQIHKGLSEVVHQFMPHEAAVEHVFVNKDATATLKLGQARAIALLVPAQANCPVFEYAPNKVKKSVIGVGHGAKEQIHMMVKVLLPRAEFDSNDAADALALALCHSMHRKRIDQSYQARMAI | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q6MKB6 | MSLVILGVDPGSRITGFGVVRVANGKIEHINHGVIVMDGDDAFPRRMTELGSAFREVMEKYKPEQVVIEKIFLGKNADSAFKLGHARGVIMYEAGLGGAEVQEYATRSVKKGVTGNGGASKEDVQAILKVMLSLKTISRIDASDALAMACYHAFEMKKKALMQRAVSL | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
B8DUE9 | MIVLGVDPGLTRCGVGVIEAGAYRRLSFIHVDVVRSDPHESQDLRLLKIYDGLCAKMDEFIPDTVSIERVFAQENRNTVLGTAQAAGMAMLAAAQRGIPVALHTPTESKMAITGNGKAEKIQMERMVARILNLNALPTPADAADALAIAICHALRPSGALEGGEREQHLTPAQRQWAQATQHATRRRGVRRGM | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q2KVY8 | MRILGIDPGLRRTGFGVVDAEGSRLRYIASGTIVVPPDLALAQRLKVILDNLREVARETRPDVAALEIVFLNANPSSTLLLGHARGAALCALAESGLDVHEYTALQIKKSTVGTGRAAKEQVQMMVQHLLSLNGTPAPDSADALACAICHAHTGPLQERLSPLAATSRSGKSRIRKGRLLG | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q5HCG1 | MNIIGIDPSLNSTGWAILSVHDNNYNEIRLVDNGSILTSNKKTIGERLNKIYSELLNILNSYKVDTASMEEIFINKNPKSSTLLCYARGVLLLTLNVACIPLFEYSANRVKKSITGNGHAKKEQVCFMIENILNIKCHGTYDISDAIAVAICHIYSIKAF | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
B1H0B2 | MIILGIDPGLSLTGWGVVEAFSRDKVNPLQYGCIKTMPSVPLIQRLQTINTKLQSVIDKYKPEVASIEELFFFKATKSIAAVGQTRGAIILTASLNKIPLFEYNPKSVKTALTGYGSADKYQMQRIVKTFLRLKEIPKPDDAADALAIAVCHVNTINWNANNNNNASVFLKNKVFKESAKPNLLKKLFSL | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
B0S1J5 | MRVLGIDPGIAIVGYSILDYDNNKIKCLEYGCITTSSKSALPDRLSFIYQEMNKIIDEFQPDDCAFEELFFNKNVKTAITVSQARGVEILSCINKDLRLYEYTPLQIKQAVVGYGRADKRQVQETVKTILKFNEIPKPDDAADAVAVALCHIFGSKFKYLNEMK | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q2JD96 | MRVLGVDPGLTRCGLGVVDGGLGIRAHLVEVGVVRTPATAEVAERLCAVSDGIDAWLDRTRPEAVAVEKVFSQANMRTVMGTAQAGAVAIVLAARRGLPVGLYTPSEVKAAVTGSGRADKAQVSFMITRLLGLTEAPRPADAADALALALCHLWRGPALARFRSAAPGGPTR | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
B8H9D8 | MTLRVLGVDPGLTRCGIGVVDVERNRRATMVAVGVVGTSPDESLDQRLLVIATAIDEWLDRYEPQVLAVERVFSQLNVSTVMGVAQASGVVIAAAARRGIPVALHTPSEVKAAVTGSGSSNKDAVTKLVTKILRLDAPPRPADAADALALAITHAWRAGSGASVATTGPGSSSLTPAQRAWAEAEAKARRAR | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
A8F3S6 | MIIFGVDPGFGILGYGVLSVSGNSFQHVSHGTIQTEKQQNIALRLKVLYEELSNVIDNFKPSEIAMEKLFFSRNITTAISVGEARGIVLLLAAQRNIPVFEYTPHEIKKAVTGSGKASKKDVQQMIKILLNLKELPKPDDAADGLAIAWCHCAVRNITRRFS | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q88NJ2 | MTLILGIDPGSRITGYGVVRQTARGCEYVASGCIRTGSGELHERLQIVFRGVSEIIAQHGPVTMGIERVFMARNADSALKLGQARGAAIVAAAEAGLEIAEYSATQVKQAVAGTGGANKEQVMMMVMHLLKLTQKPQIDASDALAIALCHAHTRSSLVPHGLTTARRRGGRLRL | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
Q4FTV0 | MAIIIGIDPGSRMTGYGILQQTGDKLTYIDSGTIRTDTKEMPERLKRIFNGLTRITQHHLKYADEPIYTAIEQVFMAENPDSALKLGQARGAAIAAMVALDLEVSEYTARQIKQAVCGYGAAAKEQVQDMVCRILTLDFVPQQDAADGLACAICHAHSSHSMNKLILNSAMRGRGASKKKGRWRLTEEDLGNLR | Cofactor: Binds 2 Mg(2+) ion per subunit.
Function: The RuvA-RuvB-RuvC complex processes Holliday junction (HJ) DNA during genetic recombination and DNA repair. Endonuclease that resolves HJ intermediates. Cleaves cruciform DNA by making single-stranded nicks across the HJ at symmetrical positions within the homologous... |
P79105 | MTKLEDHLEGIINIFHQYSVRVGHFDTLNKRELKQLITKELPKTLQNTKDQPTIDKIFQDLDADKDGAVSFEEFVVLVSRVLKTAHIDIHKE | Function: S100A12 is a calcium-, zinc- and copper-binding protein which plays a prominent role in the regulation of inflammatory processes and immune response. Its pro-inflammatory activity involves recruitment of leukocytes, promotion of cytokine and chemokine production, and regulation of leukocyte adhesion and migra... |
P80511 | MTKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYHTHKE | Function: S100A12 is a calcium-, zinc- and copper-binding protein which plays a prominent role in the regulation of inflammatory processes and immune response. Its pro-inflammatory activity involves recruitment of leukocytes, promotion of cytokine and chemokine production, and regulation of leukocyte adhesion and migra... |
O77791 | MTKLEDHLEGIINIFHQYSVRTGHYDTLSKCELKKLITTELVNTIKNTKDQATVDRIFRDLDEDGDHQVDFKEFLSLLASVLVTAHENIHKE | Function: S100A12 is a calcium-, zinc- and copper-binding protein which plays a prominent role in the regulation of inflammatory processes and immune response. Its pro-inflammatory activity involves recruitment of leukocytes, promotion of cytokine and chemokine production, and regulation of leukocyte adhesion and migra... |
Q0VCM0 | MADSYTELEKAVVVLVENFYKYVSKHSLVKNKISKSSFRKMLQKELNHMLTDTGNRKAADKLIQNLDANHDGRISFDEYWTLIGGITSPIANLIRQQEQQSSS | Function: Calcium-binding protein. Binds one calcium ion per monomer (By similarity). Can promote differentiation of adipocytes (in vitro) (By similarity). Overexpression in preadipocytes increases their proliferation, enhances adipogenesis and reduces insulin-stimulated glucose uptake (By similarity).
Sequence Mass (D... |
Q96FQ6 | MSDCYTELEKAVIVLVENFYKYVSKYSLVKNKISKSSFREMLQKELNHMLSDTGNRKAADKLIQNLDANHDGRISFDEYWTLIGGITGPIAKLIHEQEQQSSS | Function: Calcium-binding protein. Binds one calcium ion per monomer . Can promote differentiation of adipocytes (in vitro) (By similarity). Overexpression in preadipocytes increases their proliferation, enhances adipogenesis and reduces insulin-stimulated glucose uptake (By similarity).
Sequence Mass (Da): 11801
Seque... |
Q975F9 | MKAFILAAGSGERLEPITHTRPKAFVPILSKPLIEYQIEYLRKCGIRDITVIVSSKNKEYFEKKLKEISIVTQKDDIKGTGAAILSAKFNDEALIIYGDLFFSNEKEICNIITLKENAIIGVKVSNPKDYGVLVLDNQNNLSKIIEKPEIPPSNLINAGIYKLNSDIFTYLDKISISERGELELTDAINLMAKDHRVKVIEYEGYWMDIGKPWNIIDVNKWALDNLVFSQNLGNVEDNVKIKGKVIIEEDAEIKSGTYIEGPVYIGKGSEIGPNSYLRPYTILVEKNKIGASVEVKESVIMEGSKIPHLSYVGDSVIAED... | Cofactor: Can also use Mg(2+) and Zn(2+), with lower efficiency. Important for nucleotidylyltransferase activity.
Function: Bifunctional enzyme involved in the synthesis of UDP-N-acetylglucosamine (UDP-GlcNAc) and UDP-N-acetylgalactosamine (UDP-GalNAc). It has multiple amino-sugar-1-phosphate acetyltransferase activiti... |
P21453 | MGPTSVPLVKAHRSSVSDYVNYDIIVRHYNYTGKLNISADKENSIKLTSVVFILICCFIILENIFVLLTIWKTKKFHRPMYYFIGNLALSDLLAGVAYTANLLLSGATTYKLTPAQWFLREGSMFVALSASVFSLLAIAIERYITMLKMKLHNGSNNFRLFLLISACWVISLILGGLPIMGWNCISALSSCSTVLPLYHKHYILFCTTVFTLLLLSIVILYCRIYSLVRTRSRRLTFRKNISKASRSSEKSLALLKTVIIVLSVFIACWAPLFILLLLDVGCKVKTCDILFRAEYFLVLAVLNSGTNPIIYTLTNKEMRR... | Function: G-protein coupled receptor for the bioactive lysosphingolipid sphingosine 1-phosphate (S1P) that seems to be coupled to the G(i) subclass of heteromeric G proteins. Signaling leads to the activation of RAC1, SRC, PTK2/FAK1 and MAP kinases. Plays an important role in cell migration, probably via its role in th... |
P48303 | MVSSTSIPVVKALRSQVSDYGNYDIIVRHYNYTGKLNIGVEKDHGIKLTSVVFILICCLIILENIFVLLTIWKTKKFHRPMYYFIGNLALSDLLAGVAYTANLLLSGATTYKLTPAQWFLREGSMFVALSASVFSLLAIAIERYITMLKMKLHNGSNSSRSFLLISACWVISLILGGLPIMGWNCISSLSSCSTVLPLYHKHYILFCTTVFTLLLLSIVILYCRIYSLVRTRSRRLTFRKNISKASRSSEKSLALLKTVIIVLSVFIACWAPLFILLLLDVGCKAKTCDILYKAEYFLVLAVLNSGTNPIIYTLTNKEMR... | Function: G-protein coupled receptor for the bioactive lysosphingolipid sphingosine 1-phosphate (S1P) that seems to be coupled to the G(i) subclass of heteromeric G proteins. Signaling leads to the activation of RAC1, SRC, PTK2/FAK1 and MAP kinases. Plays an important role in cell migration, probably via its role in th... |
Q9I8K8 | MTTCRLFAGFCQAVTMSKYSQYFNKTLIQVHYLTAKEMTAEELRDRIESKQSLSSLNILFVVICSIIILENLLVLIAVFRNKKFHSAMFFFIGNLAFSDLLAGSAYIANIFLSGPRTFHLTPVQWFIREGTAFIALSASVFSLLAIAIERYIAITKVKVYGSNKTCRMFLLIGACWVMSILLGGLPIIGWNCINNLDDCSAVLPLNTRYYIRFVVTIFSIILLSIVILYVRIYLIVRTSHQEATNSPAYALLKTVTIVLGVFIICWLPAFTILLLDTSCKMKQCPILNNAGIFFSFATLNSALNPLIYTLRSKDMRKEFL... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P) . S1P receptor is critical for cell migration and epithelial integrity during vertebrate embryogenesis . Receptor for the chemokine-like protein FAM19A5 (By similarity). Mediates the inhibitory effect of FAM19A5 on vascular smooth muscle cell pro... |
O95136 | MGSLYSEYLNPNKVQEHYNYTKETLETQETTSRQVASAFIVILCCAIVVENLLVLIAVARNSKFHSAMYLFLGNLAASDLLAGVAFVANTLLSGSVTLRLTPVQWFAREGSAFITLSASVFSLLAIAIERHVAIAKVKLYGSDKSCRMLLLIGASWLISLVLGGLPILGWNCLGHLEACSTVLPLYAKHYVLCVVTIFSIILLAIVALYVRIYCVVRSSHADMAAPQTLALLKTVTIVLGVFIVCWLPAFSILLLDYACPVHSCPILYKAHYFFAVSTLNSLLNPVIYTWRSRDLRREVLRPLQCWRPGVGVQGRRRGGT... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P) . S1P is a bioactive lysophospholipid that elicits diverse physiological effects on most types of cells and tissues . When expressed in rat HTC4 hepatoma cells, is capable of mediating S1P-induced cell proliferation and suppression of apoptosis .... |
P52592 | MGGLYSEYLNPEKVLEHYNYTKETLDMQETTSRKVASAFIIILCCAIVVENLLVLIAVARNSKFHSAMYLFLGNLAASDLLAGVAFVANTLLSGHVTLSLTPVQWFAREGSAFITLSASVFSLLAIAIERQVALAKVKLYGSDKSCRMLMLIGASWLISLILGGLPILGWNCLNQLEACSTVLPLYAKHYVLCVVTIFSVILLAIVALYVRIYFVVRSSHADVAGPQTLALLKTVTIVLGVFIICWLPAFSILLLDSTCPVRACPVLYKAHYFFAFATLNSLLNPVIYTWRSRDLRREVLRPLQCWRRGKGVTGRRGGNP... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P) (By similarity). S1P is a bioactive lysophospholipid that elicits diverse physiological effects on most types of cells and tissues (By similarity). Receptor for the chemokine-like protein FAM19A5 (By similarity). Mediates the inhibitory effect of... |
Q99500 | MATALPPRLQPVRGNETLREHYQYVGKLAGRLKEASEGSTLTTVLFLVICSFIVLENLMVLIAIWKNNKFHNRMYFFIGNLALCDLLAGIAYKVNILMSGKKTFSLSPTVWFLREGSMFVALGASTCSLLAIAIERHLTMIKMRPYDANKRHRVFLLIGMCWLIAFTLGALPILGWNCLHNLPDCSTILPLYSKKYIAFCISIFTAILVTIVILYARIYFLVKSSSRKVANHNNSERSMALLRTVVIVVSVFIACWSPLFILFLIDVACRVQACPILFKAQWFIVLAVLNSAMNPVIYTLASKEMRRAFFRLVCNCLVRG... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P). S1P is a bioactive lysophospholipid that elicits diverse physiological effect on most types of cells and tissues. When expressed in rat HTC4 hepatoma cells, is capable of mediating S1P-induced cell proliferation and suppression of apoptosis.
Loc... |
O95977 | MNATGTPVAPESCQQLAAGGHSRLIVLHYNHSGRLAGRGGPEDGGLGALRGLSVAASCLVVLENLLVLAAITSHMRSRRWVYYCLVNITLSDLLTGAAYLANVLLSGARTFRLAPAQWFLREGLLFTALAASTFSLLFTAGERFATMVRPVAESGATKTSRVYGFIGLCWLLAALLGMLPLLGWNCLCAFDRCSSLLPLYSKRYILFCLVIFAGVLATIMGLYGAIFRLVQASGQKAPRPAARRKARRLLKTVLMILLAFLVCWGPLFGLLLADVFGSNLWAQEYLRGMDWILALAVLNSAVNPIIYSFRSREVCRAVLS... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P). S1P is a bioactive lysophospholipid that elicits diverse physiological effect on most types of cells and tissues. May be involved in cell migration processes that are specific for lymphocytes.
Location Topology: Multi-pass membrane protein
Seque... |
Q9H228 | MESGLLRPAPVSEVIVLHYNYTGKLRGARYQPGAGLRADAVVCLAVCAFIVLENLAVLLVLGRHPRFHAPMFLLLGSLTLSDLLAGAAYAANILLSGPLTLKLSPALWFAREGGVFVALTASVLSLLAIALERSLTMARRGPAPVSSRGRTLAMAAAAWGVSLLLGLLPALGWNCLGRLDACSTVLPLYAKAYVLFCVLAFVGILAAICALYARIYCQVRANARRLPARPGTAGTTSTRARRKPRSLALLRTLSVVLLAFVACWGPLFLLLLLDVACPARTCPVLLQADPFLGLAMANSLLNPIIYTLTNRDLRHALLRL... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P). S1P is a bioactive lysophospholipid that elicits diverse physiological effect on most types of cells and tissues. Is coupled to both the G(i/0)alpha and G(12) subclass of heteromeric G-proteins (By similarity). May play a regulatory role in the ... |
Q91X56 | MEPGLLRPAPVSEVIVLHYNYTGKLRGARYQPGAGLRADAAVCLAVCAFIVLENLAVLLVLVRHPRFHAPMFLLLGSLTLSDLLAGAAYATNILLSGPLTLRLSPALWFAREGGVFVALAASVLSLLAIALERHLTMARRGPAPAASRARTLAMAVAAWGASLLLGLLPALGWNCLGRLETCSTVLPLYAKAYVLFCVLAFLGILAAICALYARIYCQVRANARRLRAGPGSRRATSSSRSRHTPRSLALLRTLSVVLLAFVACWGPLFLLLLLDVACPARACPVLLQADPFLGLAMANSLLNPIIYTFTNRDLRHALLR... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P). S1P is a bioactive lysophospholipid that elicits diverse physiological effect on most types of cells and tissues. Is coupled to both the G(i/0)alpha and G(12) subclass of heteromeric G-proteins (By similarity). S1P activation on oligodendroglial... |
Q684M3 | MEPGLLRPAPVSEVIVLHYNYTGKLRGARYQPGAGLRADAVVCLAVCALIVLENLAVLVVLGRHPRFHAPMFLLLGSLTLSDLLAGAAYAANILLSGPLTLRLSPALWFAREGGVFVALAASVLSLLAIALERLLTMERRGPAPAARRGRTLALAAGAWGVSLLLGLLPALGWNCLGRLEACSTVLPLYAKAYVLFCVLAFVGILAAICGLYARIYCQVRAKAQRLRARPGAGEGTSARARGTPRSLALLRTLSVVLVAFVACWGPLFLLLLLDVACPARACPVLLQADPFLGLAMANSLLNPIIYTFTNRDLRHALLRL... | Function: Receptor for the lysosphingolipid sphingosine 1-phosphate (S1P). S1P is a bioactive lysophospholipid that elicits diverse physiological effect on most types of cells and tissues. Is coupled to both the G(i/O)alpha and G(12) subclass of heteromeric G-proteins (By similarity).
Location Topology: Multi-pass memb... |
Q9BZJ4 | MADQDPAGISPLQQMVASGTGAVVTSLFMTPLDVVKVRLQSQRPSMASELMPSSRLWSLSYTKLPSSLQSTGKCLLYCNGVLEPLYLCPNGARCATWFQDPTRFTGTMDAFVKIVRHEGTRTLWSGLPATLVMTVPATAIYFTAYDQLKAFLCGRALTSDLYAPMVAGALARLGTVTVISPLELMRTKLQAQHVSYRELGACVRTAVAQGGWRSLWLGWGPTALRDVPFSALYWFNYELVKSWLNGFRPKDQTSVGMSFVAGGISGTVAAVLTLPFDVVKTQRQVALGAMEAVRVNPLHVDSTWLLLRRIRAESGTKGLF... | Function: Mitochondrial transporter required for glutathione import into mitochondria . Glutathione, which plays key roles in oxidative metabolism, is produced exclusively in the cytosol and is imported in many organelles . Mitochondrial glutathione is required for the activity and stability of proteins containing iron... |
Q6DHC3 | MSCQESSPGPPGDITPFQQMMASCSGAIITSLLVTPLDVVKIRLQAQKNPFPKGKCFVYCNGLMDHICVCENGNTKVWYKAPGHFSGTLDAFLKIIRMEGIRSLWSGLPPTLIMAVPATVIYFTCYDQLFALLKLKMGDRSDLAPLFAGAIARVGSATVISPLELIRTKMQSEKQSYREMSAVIRSALKNEGLRSLWRGWGPTLLRDVPFSAMYWFNYEKGKWWLCKRYSCSEPTVAITFTAGALSGSIASIITLPFDVVKTKRQVEMGELQTMKLSTQVSSSTCSVMKRIVAENGVSGLFAGFMPRLIKVAPACAIMIS... | Function: Probable mitochondrial transporter required for glutathione import into mitochondria. Glutathione, which plays key roles in oxidative metabolism, is produced exclusively in the cytosol and is imported in many organelles (By similarity). Mitochondrial glutathione is required for the activity and stability of p... |
Q552L9 | MLSNSVNNNNNNNNINNSNSNNNDSNIHKNVKKLMVASIFGGIMSSLIVTPLDVVKTRLQTQNTGSHINQKHVFKGTLDAFKKIYKNEGPLTFWRGVTPSLLMTIPSATIYFTSYEYLKEYLYQFNDTEAYNIYTVPLVAGTLARIFSASVTSPFELLRTNSQGIVLQNAYKNTVAMAASSSTATIGTIPLSSEQRFNSFKLYRDIVNNVGIKGLWRGLGPTLVRDVPFSAIYWAGYEVLKNKLMKSQIDPNFSRNSKSPFFINFIAGATSGTLAAVLTTPIDVIKTRIQMSAQQTLSPSLTPQQQLDFIKKNNSSIYHL... | Function: Mitochondrial transporter required for glutathione import into mitochondria.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 40633
Sequence Length: 366
Subcellular Location: Mitochondrion inner membrane
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Q8TBP6 | MDPETRGQEIIKVTPLQQMLASCTGAILTSVIVTPLDVVKIRLQAQNNPLPKGKCFVYSNGLMDHLCVCEEGGNKLWYKKPGNFQGTLDAFFKIIRNEGIKSLWSGLPPTLVMAVPATVIYFTCYDQLSALLRSKLGENETCIPIVAGIVARFGAVTVISPLELIRTKMQSKKFSYVELHRFVSKKVSEDGWISLWRGWAPTVLRDVPFSAMYWYNYEILKKWLCEKSGLYEPTFMINFTSGALSGSFAAVATLPFDVVKTQKQTQLWTYESHKISMPLHMSTWIIMKNIVAKNGFSGLFSGLIPRLIKIAPACAIMIST... | Function: Probable mitochondrial transporter required for glutathione import into mitochondria . Glutathione, which plays key roles in oxidative metabolism, is produced exclusively in the cytosol and is imported in many organelles . Mitochondrial glutathione is required for the activity and stability of proteins contai... |
Q8BGP6 | MEPETEGPPPTIPVTPLQQMIASCTGAVLTSLMVTPLDVVKIRLQAQNNPFPKGKCFLYSNGLMDHMCVCEEESKKAWYKKPGNFRGTLDAFLKILRNEGIKSLWSGLPPTLVMAIPATVIYFTCYEQLSAFLKTKLGENETRIPIVAGVVARFGAVTVISPLELIRTKVQSKKFSYKELYQFVSMRVSEDGWISLWKGWAPTILRDVPFSAMYWYNYENLKRWLCEKSGLYEPTFMINFTSGALSGSFAAVATLPFDVVKTQKQTQLWTNEYCKFPAPLDMSTWTIMKNIVADKGFSGLFTGLIPRLVKIVPACAIMIS... | Function: Probable mitochondrial transporter required for glutathione import into mitochondria. Glutathione, which plays key roles in oxidative metabolism, is produced exclusively in the cytosol and is imported in many organelles (By similarity). Mitochondrial glutathione is required for the activity and stability of p... |
Q6P316 | MQKNTEPVQEAINITPSQQMIASSMGALLTSFFVTPLDVVKIRLQAQSKPFIKGKCFVYCNGLMDHLCLCTNGNGKAWYRAPGHFRGTTDAFVQIIRNEGIKSLWSGLPPTLVMAVPATVIYFTCYDQLRDILIRSMPERAEIASLVAGATARLWSATLISPLELIRTKMQYRPLSYKELRQCIQSSVAKDGWLALWKGWGPTVLRDVPFSALYWHNYELVKQSLCQRYNTLQPTFAISFTAGAVSGSIAAIVTLPFDVVKTRRQVEVGELEMFTYSQKRSSSTWKLMRAIVIENGFGGLFAGLIPRLIKVAPACAIMIS... | Function: Probable mitochondrial transporter required for glutathione import into mitochondria. Glutathione, which plays key roles in oxidative metabolism, is produced exclusively in the cytosol and is imported in many organelles (By similarity). Mitochondrial glutathione is required for the activity and stability of p... |
Q0II44 | MGAQPEQTQKPSSRVQTLFKRVKAFFTKTGPPPPPPAPSRNLGCTHVYGYVFGHLGEREPEHSPSQQVLDTGEQLMVPVDVLEVDNEGALWKFLLSGAMAGAVSRTGTAPLDRAKVYMQVYSSKKNFMNLLGGLRSLIQEGGIRSLWRGNGINVLKIAPEYAIKFSVFEQCKNYFCGVHESPPFQERLLAGSLAVATSQTLINPMEVLKTRLTLRRTGQYKGLLDCARQILEQEGTRALYRGYLPNMLGIIPYACTDLAVYEMLNCLWLKSGRDMKDPSGLVSLSSVTLSTTCGQMASYPLTLVRTRMQAQGQLGPFSNL... | Function: Calcium-independent ATP-Mg/Pi exchanger that catalyzes the electroneutral exchange of Mg-ATP or free ADP against an hydrogenphosphate and participates in the net transport of adenine nucleotides across the mitochondria inner membrane.
Catalytic Activity: ATP(out) + Mg(2+)(out) + phosphate(in) = ATP(in) + Mg(2... |
Q8N5S1 | MGAQPGEPQNTCSRIQTLFRRVKTLLIKAPPPPQPPPPPPSWNPGCTHVYGYAFGHMHDNNLEHLPSQQVLDTGEQLMVPVEVLEVDNKEALWKFLLSGAMAGAVSRTGTAPLDRAKVYMQVYSSKTNFTNLLGGLQSMVQEGGFRSLWRGNGINVLKIAPEYAIKFSVFEQCKNYFCGIQGSPPFQERLLAGSLAVAISQTLINPMEVLKTRLTLRRTGQYKGLLDCARQILQREGTRALYRGYLPNMLGIIPYACTDLAVYEMLQCFWVKSGRDMGDPSGLVSLSSVTLSTTCGQMASYPLTLVRTRMQAQDTVEGSN... | Function: Calcium-independent ATP-Mg/Pi exchanger that catalyzes the electroneutral exchange of Mg-ATP or free ADP against an hydrogenphosphate and participates in the net transport of adenine nucleotides across the mitochondria inner membrane.
Catalytic Activity: ATP(out) + Mg(2+)(out) + phosphate(in) = ATP(in) + Mg(2... |
Q8BVN7 | MGVHLEVLDTGEQLMVPVDVLEEENKGTLWKFLLSGAMAGAVSRTGTAPLDRARVYMQVYSSKSNFRNLLSGLRSLVQEGGVRSLWRGNGINVLKIAPEYAIKFSVCEQSKNFFYGVHSSQLFQERVVAGSLAVAVSQTLINPMEVLKTRLTLRFTGQYKGLLDCARQILERDGTRALYRGYLPNMLGIIPYACTDLAVYELLQCLWQKLGRDMKDPSGLVSLSSVTLSTTCGQMASYPLTLVRTRMQAQDTVEGSNPTMQGVFKRILSQQGWPGLYRGMTPTLLKVLPAGGISYLVYEAMKKTLGVQVLSR | Function: Calcium-independent ATP-Mg/Pi exchanger that catalyzes the electroneutral exchange of Mg-ATP or free ADP against an hydrogenphosphate and participates in the net transport of adenine nucleotides across the mitochondria inner membrane.
Catalytic Activity: ATP(out) + Mg(2+)(out) + phosphate(in) = ATP(in) + Mg(2... |
Q0P483 | MGNVVQERQGALAQGEVLPRPAASQSEGFKQGRSVLNSLVSGAFAGAVAKTAVAPLDRTKIIFQVSSNRFSAKEAYRLIYRTYLKDGFFSLWRGNSATMVRVIPYAAIQFCAHEQYKGILGKYYGFQGKALPPVPRLLAGSLAGTTAAIITYPLDMVRARMAVTPKEMYSNIMDVFVRISREEGLKTLYRGFTPTILGVVPYAGLSFFTYETLKKTHAEKTGRAHPFPYERLVFGACAGLIGQSASYPLDVVRRRMQTAGVTGHTYSTVLGTMREIVAEEGIVRGLYKGLSMNWVKGPIAVGISFMTFDLTQILLRKFQL... | Function: Mitochondrial carrier mediating the transport of coenzyme A (CoA) in mitochondria in exchange for intramitochondrial (deoxy)adenine nucleotides and adenosine 3',5'-diphosphate.
Catalytic Activity: ADP(out) + CoA(in) = ADP(in) + CoA(out)
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35336
... |
Q86VD7 | MGNGVKEGPVRLHEDAEAVLSSSVSSKRDHRQVLSSLLSGALAGALAKTAVAPLDRTKIIFQVSSKRFSAKEAFRVLYYTYLNEGFLSLWRGNSATMVRVVPYAAIQFSAHEEYKRILGSYYGFRGEALPPWPRLFAGALAGTTAASLTYPLDLVRARMAVTPKEMYSNIFHVFIRISREEGLKTLYHGFMPTVLGVIPYAGLSFFTYETLKSLHREYSGRRQPYPFERMIFGACAGLIGQSASYPLDVVRRRMQTAGVTGYPRASIARTLRTIVREEGAVRGLYKGLSMNWVKGPIAVGISFTTFDLMQILLRHLQS | Function: Mitochondrial carrier mediating the transport of coenzyme A (CoA) in mitochondria in exchange for intramitochondrial (deoxy)adenine nucleotides and adenosine 3',5'-diphosphate.
Catalytic Activity: ADP(out) + CoA(in) = ADP(in) + CoA(out)
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35409
... |
P0CK96 | MSSSVKTPALEELVPGSEEKPKGRSPLSWGSLFGHRSEKIVFAKSDGGTDENVLTVTITETTVIESDLGVWSSRALLYLTLWFFFSFCTLFLNKYILSLLGGEPSMLGAVQMLSTTVIGCVKTLVPCCLYQHKARLSYPPNFLMTMLFVGLMRFATVVLGLVSLKNVAVSFAETVKSSAPIFTVIMSRMILGEYTGLLVNLSLIPVMGGLALCTATEISFNVLGFSAALSTNIMDCLQNVFSKKLLSGDKYRFSAPELQFYTSAAAVAMLVPARVFFTDVPVIGRSGKSFSYNQDVVLLLLTDGVLFHLQSVTAYALMGK... | Function: Putative transporter.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 43777
Sequence Length: 405
Subcellular Location: Membrane
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P78382 | MAAPRDNVTLLFKLYCLAVMTLMAAVYTIALRYTRTSDKELYFSTTAVCITEVIKLLLSVGILAKETGSLGRFKASLRENVLGSPKELLKLSVPSLVYAVQNNMAFLALSNLDAAVYQVTYQLKIPCTALCTVLMLNRTLSKLQWVSVFMLCAGVTLVQWKPAQATKVVVEQNPLLGFGAIAIAVLCSGFAGVYFEKVLKSSDTSLWVRNIQMYLSGIIVTLAGVYLSDGAEIKEKGFFYGYTYYVWFVIFLASVGGLYTSVVVKYTDNIMKGFSAAAAIVLSTIASVMLFGLQITLTFALGTLLVCVSIYLYGLPRQDT... | Function: Transports CMP-sialic acid from the cytosol into the Golgi apparatus, functioning as an antiporter that exchanges CMP-sialic acid for CMP . Binds both CMP-sialic acid and free CMP, but has higher affinity for free CMP (By similarity). Also able to exchange CMP-sialic acid for AMP and UMP . Also mediates the t... |
Q61420 | MAPARENVSLFFKLYCLTVMTLVAAAYTVALRYTRTTAEELYFSTTAVCITEVIKLLISVGLLAKETGSLGRFKASLSENVLGSPKELAKLSVPSLVYAVQNNMAFLALSNLDAAVYQVTYQLKIPCTALCTVLMLNRTLSKLQWISVFMLCGGVTLVQWKPAQATKVVVAQNPLLGFGAIAIAVLCSGFAGVYFEKVLKSSDTSLWVRNIQMYLSGIVVTLAGTYLSDGAEIQEKGFFYGYTYYVWFVIFLASVGGLYTSVVVKYTDNIMKGFSAAAAIVLSTIASVLLFGLQITLSFALGALLVCVSIYLYGLPRQDT... | Function: Transports CMP-sialic acid from the cytosol into the Golgi apparatus, functioning as an antiporter that exchanges CMP-sialic acid for CMP . Binds both CMP-sialic acid and free CMP, but has higher affinity for free CMP . Also able to exchange CMP-sialic acid for AMP and UMP (By similarity). Also mediates the t... |
P78381 | MAAVGAGGSTAAPGPGAVSAGALEPGTASAAHRRLKYISLAVLVVQNASLILSIRYARTLPGDRFFATTAVVMAEVLKGLTCLLLLFAQKRGNVKHLVLFLHEAVLVQYVDTLKLAVPSLIYTLQNNLQYVAISNLPAATFQVTYQLKILTTALFSVLMLNRSLSRLQWASLLLLFTGVAIVQAQQAGGGGPRPLDQNPGAGLAAVVASCLSSGFAGVYFEKILKGSSGSVWLRNLQLGLFGTALGLVGLWWAEGTAVATRGFFFGYTPAVWGVVLNQAFGGLLVAVVVKYADNILKGFATSLSIVLSTVASIRLFGFHV... | Function: Transports uridine diphosphate galactose (UDP-galactose) from the cytosol into the Golgi apparatus, functioning as an antiporter that exchanges UDP-galactose for UMP . It is also able to exchange UDP-galactose for AMP and CMP, and to transport UDP-N-acetylgalactosamine (UDP-GalNAc) and other nucleotide sugars... |
Q9R0M8 | MAAVGVGGSTAAAGAGAVSSGALEPGSTTAAHRRLKYISLAVLVVQNASLILSIRYARTLPGDRFFATTAVVMAEVLKGLTCLLLLFAQKRGNVKHLVLFLHEAVLVQYVDTLKLAVPSLIYTLQNNLQYVAISNLPAATFQVTYQLKILTTALFSVLMLNRSLSRLQWASLLLLFTGVAIVQAQQAGGSGPRPLDQNPGAGLAAVVASCLSSGFAGVYFEKILKGSSGSVWLRNLQLGLFGTALGLVGLWWAEGTAVASQGFFFGYTPAVWGVVLNQAFGGLLVAVVVKYADNILKGFATSLSIVLSTVASIRLFGFHL... | Function: Transports uridine diphosphate galactose (UDP-galactose) from the cytosol into the Golgi apparatus . It functions as an antiporter that exchanges UDP-galactose for UMP (By similarity). It is also able to exchange UDP-galactose for AMP and CMP, and to transport UDP-N-acetylgalactosamine (UDP-GalNAc) and other ... |
O16658 | MNRANDTSSNLKLISLVVLIVQTTALVLTLRYSQTQKSEGPRYLSSTAVVCAEIIKLITCFFVIYRNNGYRFSGMLNELNREIFASPQTRADSLKVAVPAIMYVIQNNLLFFALKKLDAATYQVTYQLKILTTAIFSVTMLGKSLHRYNWMALILLTAGVALVQYPSGDSTTSKSTAAEHDASDNILGLGAVLAACFSSGFAGVYFEKILKTSKVSLWIRNIQLAFFSVFGALLVCWLYDWQAISDDGFLRGYNGVIWIVVLLQAYGGLVIALVVKYADNILKGFAVSLSIILSSFTSWLVLGDLTITTTFAIGATVVIF... | Function: Uridine diphosphate-N-acetylglucosamine (UDP-GlcNAc) transporter in the Golgi apparatus . UDP-N-acetylgalactosamine (UDP-GalNAc) transporter in the Golgi apparatus . Apparently transports UDP-GlcNAc and UDP-GalNAc simultaneously, and independently, by an unknown mechanism . Functions redundantly with nucleoti... |
O77592 | MSTNLKYLSLGILVFQTTSLVLTMRYSRTLKEEGPRYLSSTAVVVAELLKIMACILLVYKDSKCSLRALNRILHDEILNKPMETLKLAIPSGIYTLQNNLLYVALSNLDAATYQVTYQLKILTTALFSVSMLSKKLGVYQWLSLVILMTGVAFVQWPSDSQELDSKELSAGSQFVGLMAVLTACFSSGFAGVYFEKILKETKQSVWIRNIQLGFFGSIFGLMGVYIYDGELVSKNGFFQGYNRLTWIVVILQALGGLVIAAVIKYADNILKGFATSLSIILSTLISYFWLQDFVPTSVFFLGAILVITATFLYGYDPKPT... | Function: Uridine diphosphate-N-acetylglucosamine (UDP-GlcNAc) transporter in the Golgi apparatus. May supply UDP-GlcNAc as substrate for Golgi-resident glycosyltransferases that generate branching of diantennary oligosaccharides (By similarity).
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 36156
... |
Q9Y2D2 | MFANLKYVSLGILVFQTTSLVLTMRYSRTLKEEGPRYLSSTAVVVAELLKIMACILLVYKDSKCSLRALNRVLHDEILNKPMETLKLAIPSGIYTLQNNLLYVALSNLDAATYQVTYQLKILTTALFSVSMLSKKLGVYQWLSLVILMTGVAFVQWPSDSQLDSKELSAGSQFVGLMAVLTACFSSGFAGVYFEKILKETKQSVWIRNIQLGFFGSIFGLMGVYIYDGELVSKNGFFQGYNRLTWIVVVLQALGGLVIAAVIKYADNILKGFATSLSIILSTLISYFWLQDFVPTSVFFLGAILVITATFLYGYDPKPAG... | Function: Transports diphosphate-N-acetylglucosamine (UDP-GlcNAc) from the cytosol into the lumen of the Golgi apparatus, functioning as an antiporter that exchanges UDP-N-acetyl-alpha-D-glucosamine for UMP . May supply UDP-GlcNAc as substrate for Golgi-resident glycosyltransferases that generate highly branched, multi... |
Q8R1T4 | MSANLKYLSLGILVFQTTSLVLTMRYSRTLKEEGPRYLSSTAVVVAEFLKIMACIFLVYKDSKCSVRALNRVLHDEILNKPMETLKLAIPSGIYTLQNNLLYVALSNLDAATYQVTYQLKILTTALFSVSMLGKKLGVYQWLSLVILMAGVAFVQWPSDSQELNSKDLSTGSQFVGLMAVLTACFSSGFAGVYFEKILKETKQSVWIRNIQLGFFGSIFGLMGVYVYDGELVSKNGFFQGYNQLTWIVVALQALGGLVIAAVIKYADNILKGFATSLSIILSTIISYFWLQDFVPTSVFFLGAILVIAATFLYGYDPKPA... | Function: Transports diphosphate-N-acetylglucosamine (UDP-GlcNAc) from the cytosol into the lumen of the Golgi apparatus, functioning as an antiporter that exchanges UDP-N-acetyl-alpha-D-glucosamine for UMP . May supply UDP-GlcNAc as substrate for Golgi-resident glycosyltransferases that generate highly branched, multi... |
Q9NP94 | MEQLLGIKLGCLFALLALTLGCGLTPICFKWFQIDAARGHHRLVLRLLGCISAGVFLGAGFMHMTAEALEEIESQIQKFMVQNRSASERNSSGDADSAHMEYPYGELIISLGFFFVFFLESLALQCCPGAAGGSTVQDEEWGGAHIFELHSHGHLPSPSKGPLRALVLLLSLSFHSVFEGLAVGLQPTVAATVQLCLAVLAHKGLVVFGVGMRLVHLGTSSRWAVFSILLLALMSPLGLAVGLAVTGGDSEGGRGLAQAVLEGVAAGTFLYVTFLEILPRELASPEAPLAKWSCVAAGFAFMAFIALWA | Function: Transporter for the divalent cation Zn(2+) . Mediates the influx of Zn(2+) into cells from extracellular space. The Zn(2+) uniporter activity is independent of H(+)-driving force, but is modulated by extracellular pH and membrane potential. Transports also other divalent cations Zn(2+), Cd2(+), Cu2(+), Co2(+)... |
Q5E960 | MVKLLVAKILCMVGMFFFMLLGSLLPVKIIEMDFEKAHRSKKILSLCNTFGGGVFLATCFNALLPAVREKLKEVLTLAHISTDYPLAETIMLLGFFMTVFLEQLVLTFRKERPAFIDLETFNASSDAGSDSEYESPFMGGPRGHALYAEPHGHSHGLSVQELSRSSPLRLLSLVFALSAHSVFEGLALGLQEEGEKVVSLFVGVAIHETLVAVALGINMARSAMALRDAAKLAVTVSAMIPLGISLGLGIDSAQGMPSSVASVLLQGLAGGTFLFVTFFEILAKELEEKSDRLLKVLFLVLGYTVLAGMVFIKW | Function: Transporter for the divalent cation Zn(2+). Mediates the influx of Zn(2+) into cells from extracellular space. Controls Zn(2+) accumulation into dentate gyrus granule cells in the hippocampus. Mediates Zn(2+) reuptake from the secreted milk within the alveolar lumen.
Catalytic Activity: Zn(2+)(in) = Zn(2+)(ou... |
Q9BRY0 | MVKLLVAKILCMVGVFFFMLLGSLLPVKIIETDFEKAHRSKKILSLCNTFGGGVFLATCFNALLPAVREKLQKVLSLGHISTDYPLAETILLLGFFMTVFLEQLILTFRKEKPSFIDLETFNAGSDVGSDSEYESPFMGGARGHALYVEPHGHGPSLSVQGLSRASPVRLLSLAFALSAHSVFEGLALGLQEEGEKVVSLFVGVAVHETLVAVALGISMARSAMPLRDAAKLAVTVSAMIPLGIGLGLGIESAQGVPGSVASVLLQGLAGGTFLFITFLEILAKELEEKSDRLLKVLFLVLGYTVLAGMVFLKW | Function: Transporter for the divalent cation Zn(2+). Mediates the influx of Zn(2+) into cells from extracellular space. Controls Zn(2+) accumulation into dentate gyrus granule cells in the hippocampus. Mediates Zn(2+) reuptake from the secreted milk within the alveolar lumen.
Catalytic Activity: Zn(2+)(in) = Zn(2+)(ou... |
Q99K24 | MTKLLVAKVLCMVGVFFFMLLGSLLPVKVIEADLEKAHRSKKVLSLCNTFGGGVFLATCFNALLPAVRDKLQQVLSLGHISTDYPLAETLMMVGFFLTVFVEQLVLTFRRERPPFIDLETFNAGSDAGSDSEYESPFVGVGNRSHSLYPEPTAHTHGAGLRLRELGRPGPLRLLSLVFALSAHSVFEGLALGLQEEGERVVSLFVGVAIHETLVAVALGISMARSAVPLRDAAKLAVTVSAMIPVGIGLGLGIESARSVASSVASALLQGLAGGTFLFVTFLEILAKELEERSEQLLKVLFLVLGYAVLAGMVFLKW | Function: Transporter for the divalent cation Zn(2+). Mediates the influx of Zn(2+) into cells from extracellular space . Controls Zn(2+) accumulation into dentate gyrus granule cells in the hippocampus . Mediates Zn(2+) reuptake from the secreted milk within the alveolar lumen .
Catalytic Activity: Zn(2+)(in) = Zn(2+)... |
A4IIC5 | MNLIFAKVLCLLAILVLMMLGSLIPVKISEADFDKSSRSRKILSLSNSFAGGVFLATCFNALLPAVREKFFDLLKIGNISTDYPLAETIMMVGFFLTVFVEQTVMTFRKEKPSFIDMETFNAGSDIGSDSEFESPFISANHGHNLYEGGHSHHSHSLNIKELSSSSPIRLFSLVFALSAHSVFEGLALGLQEDGNKLLSLFIGVVIHETLVAMALGVSMAKVNTHLKDAIKMAVLVSTMIPIGIVVGMAIQSAQNMASSIASALLQGIAGGTFIFVTFFEILVKELEEKNDRLLKVLFLVLGYTVLAVLVLFKW | Function: Transporter for the divalent cation Zn(2+). Mediates the influx of Zn(2+) into cells from extracellular space.
Catalytic Activity: Zn(2+)(in) = Zn(2+)(out)
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 34231
Sequence Length: 314
Subcellular Location: Cell membrane
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Q6P5W5 | MASLVSLELGLLLAVLVVTATASPPAGLLSLLTSGQGALDQEALGGLLNTLADRVHCANGPCGKCLSVEDALGLGEPEGSGLPPGPVLEARYVARLSAAAVLYLSNPEGTCEDARAGLWASHADHLLALLESPKALTPGLSWLLQRMQARAAGQTPKMACVDIPQLLEEAVGAGAPGSAGGVLAALLDHVRSGSCFHALPSPQYFVDFVFQQHSSEVPMTLAELSALMQRLGVGREAHSDHSHRHRGASSRDPVPLISSSNSSSVWDTVCLSARDVMAAYGLSEQAGVTPEAWAQLSPALLQQQLSGACTSQSRPPVQDQ... | Function: Selective transporter that mediates the uptake of Zn(2+) . Plays an essential role for dietary zinc uptake from small intestine (By similarity). The Zn(2+) uniporter activity is regulated by zinc availability . Exhibits also polyspecific binding and transport of Cu(2+), Cd(2+) and possibly Ni(2+) but at highe... |
P0DX17 | MGGQTVWMTLSFKLLLYYCMISLLMPAIFILATRAQVDKFRKFNESTQTKSSQELFEEAFEEQGYYLQRLFLQYGDNGTLTYEGLQKLLGSLGLGEVSVLEIRHGEAKHPSQSISHSHSHEDHHPSQGTTNSPPLRESLDAKSALSGSPAELGRSDYFLHPALRNKQEESVSLLSDHPTEKHLHGNCLNVTQLLWNFGLGQASHITPAHFTFLCPALLYQIESGVCLRHTEDHSQASKTSEGFLIALGWASLALLVISLPSLVALGMAPLLQPSVLQVFLCPMAGMAVGTLCGDALLHLMPHAIFSQHTDHQNAVFKGLS... | Function: Uniporter that transports zinc(2+) into polarized cells of enterocytes, pancreatic acinar and endoderm cells across the basolateral membrane and participates, notably, in zinc excretion from the intestine by the uptake of zinc from the blood into the intestine. The transport mechanism is temperature- and conc... |
Q6ZMH5 | MMGSPVSHLLAGFCVWVVLGWVGGSVPNLGPAEQEQNHYLAQLFGLYGENGTLTAGGLARLLHSLGLGRVQGLRLGQHGPLTGRAASPAADNSTHRPQNPELSVDVWAGMPLGPSGWGDLEESKAPHLPRGPAPSGLDLLHRLLLLDHSLADHLNEDCLNGSQLLVNFGLSPAAPLTPRQFALLCPALLYQIDSRVCIGAPAPAPPGDLLSALLQSALAVLLLSLPSPLSLLLLRLLGPRLLRPLLGFLGALAVGTLCGDALLHLLPHAQEGRHAGPGGLPEKDLGPGLSVLGGLFLLFVLENMLGLLRHRGLRPRCCRR... | Function: Uniporter that transports zinc(2+) into polarized cells of enterocytes, pancreatic acinar and endoderm cells across the basolateral membrane and participates, notably, in zinc excretion from the intestine by the uptake of zinc from the blood into the intestine (By similarity). The transport mechanism is tempe... |
Q9D856 | MGPPVHHLLTGLCVGVALGWVGGSVPNLGPAEQEQNHYLAQLFGLYGENGTLTAGGLARLLHSLGLGRVQGLRLGHHEPPTGRAAPTSGDNFTHRLQEPELSVDIWAGMPLGPSGWGDQEESKAPDLHGSGPSSLDLFQRLLLLDHSLADHLNEDCLNGSQLLVNFGLSPVAPLTPRQFALLCPALLYQIDSRVCIKTPAPAPPGDVLSALLHSGLAVLFLSLPAPLSLLLLRLLGPRLLRPVLGFLGALAVGTLCGDALLHLLPHAQGGRHTGPSEQSEEDLGPGLSVLGGLFLLFMLENTLGLVRHRGLRPRCCRNKR... | Function: Uniporter that transports zinc(2+) into polarized cells of enterocytes, pancreatic acinar and endoderm cells across the basolateral membrane and participates, notably, in zinc excretion from the intestine by the uptake of zinc from the blood into the intestine . The transport mechanism is temperature- and con... |
Q6L8F3 | MMTFLCTRSGRRASGVECRIAAERAYFRVRGLPVANMIGWWPRLCPVMSLALLWACSVGAGSDCKSVAIETDSRIAEQTQQRHLQALFDKYGQNGSISLEGLFNLLKGVGLDRIRKVMVHHPGNAHNHTHTHDHTHTHVDKLTAHTHPVTTKKGDMDHSVEKSDPVPKAQPDPASGKKSQSDAHHNLYMKMNQESTTALTTPSYVTRSRRTNRSADYDFTQDHASFSPSQPNVTHSNHTHHDEDTPTHQHDDHDEHEHARASLGCQNASTILQTHGMRKEASLSVKDFSFLCPALLMQIDSKSCIVHEDEDEHSDHSHHH... | Function: Acts as a zinc-influx transporter which plays a role in zinc homeostasis and in the induction of epithelial-to-mesenchymal transition (EMT).
PTM: Cleaved on the N-terminus before locating to the plasma membrane.
Location Topology: Multi-pass membrane protein
Catalytic Activity: Zn(2+)(in) = Zn(2+)(out)
Sequen... |
Q13433 | MARKLSVILILTFALSVTNPLHELKAAAFPQTTEKISPNWESGINVDLAISTRQYHLQQLFYRYGENNSLSVEGFRKLLQNIGIDKIKRIHIHHDHDHHSDHEHHSDHERHSDHEHHSEHEHHSDHDHHSHHNHAASGKNKRKALCPDHDSDSSGKDPRNSQGKGAHRPEHASGRRNVKDSVSASEVTSTVYNTVSEGTHFLETIETPRPGKLFPKDVSSSTPPSVTSKSRVSRLAGRKTNESVSEPRKGFMYSRNTNENPQECFNASKLLTSHGMGIQVPLNATEFNYLCPAIINQIDARSCLIHTSEKKAEIPPKTYS... | Function: Zinc-influx transporter which plays a role in zinc homeostasis and in the induction of epithelial-to-mesenchymal transition (EMT) . When associated with SLC39A10, the heterodimer formed by SLC39A10 and SLC39A6 mediates cellular zinc uptake to trigger cells to undergo epithelial- to-mesenchymal transition (EMT... |
G4SDH4 | MGCSAATFILVALFGSSSWMGTNSVWMQLPLLTSELPEQWNLPSYLAGVVQIACIVPLIYTILHKGVKSFTIPTAPLIIALLSLACCCQLGLSFFWSDYSEIFGAPRSWPLYSLLFGLAIVNAMSNVLFMPFMAQFHPAYLNAYFVGMGLSSLAPSLLSLAQGTSMFKCDEKGVAERFPPNFSVSIFFFVIFSFTCVALFAFIALYRSGAHTHFATPNKKEPNEGTPLKKDLNNTSSSRKGDDEDESPIEIHETGAPAIDAIVSELDVTFREELQKSFRDANYLERSAMINDDSEPHPVDYITGVKFTFLLFTTALVNAQ... | Function: Riboflavin transporter.
Catalytic Activity: riboflavin(in) = riboflavin(out)
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 51842
Sequence Length: 476
Subcellular Location: Cell membrane
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Q9VRR2 | MKFAEHLTAHITPEWRKQYINYEEMKAMLYAAIEQSPSAELVEREMVTRYFAKFDEEFFHYCDKELAKINTFYSEKMAEATRKYGSLRSELTEALEMGHPKKLPAWKRRTPLGKKNVPARKIQDLKLAFSEFYLGLILLQNYQNLNFTGFRKILKKHDKLLSVDYGARWRTDHVEAAHFYTNKDIDRLIQETEQAVTQDIEGGDRQRAMKRLRVPPLGEQQSPWTTFKVGLFSGAFVVLFITVVIAAMFYGFGENWRAGMRMFRAPFLIIECLFLWGVNVYGWRSSGVNHVLIFELDPRNHLSEQNIMEVASVFGVIWAC... | Function: Inorganic ion transporter that mediates phosphate ion export across the cell membrane . Plays a major role in phosphate homeostasis, preventing intracellular phosphate accumulation and possible calcium phosphate precipitation, ultimately preserving calcium signaling . The molecular mechanism of phosphate tran... |
Q9UBH6 | MKFAEHLSAHITPEWRKQYIQYEAFKDMLYSAQDQAPSVEVTDEDTVKRYFAKFEEKFFQTCEKELAKINTFYSEKLAEAQRRFATLQNELQSSLDAQKESTGVTTLRQRRKPVFHLSHEERVQHRNIKDLKLAFSEFYLSLILLQNYQNLNFTGFRKILKKHDKILETSRGADWRVAHVEVAPFYTCKKINQLISETEAVVTNELEDGDRQKAMKRLRVPPLGAAQPAPAWTTFRVGLFCGIFIVLNITLVLAAVFKLETDRSIWPLIRIYRGGFLLIEFLFLLGINTYGWRQAGVNHVLIFELNPRSNLSHQHLFEIA... | Function: Inorganic ion transporter that mediates phosphate ion export across plasma membrane. Plays a major role in phosphate homeostasis, preventing intracellular phosphate accumulation and possible calcium phosphate precipitation, ultimately preserving calcium signaling. The molecular mechanism of phosphate transpor... |
Q9Z0U0 | MKFAEHLSAHITPEWRKQYIQYEAFKDMLYSAQDQAPSVEVTDEDTVKRYFAKFEEKFFQTCEKELAKINTFYSEKLAEAQRRFATLQNELQSSLDVQKESSGVTTLRQRRKPVFHLSHEERVQHRNIKDLKLAFSEFYLSLILLQNYQNLNFTGFRKILKKHDKILETSRGADWRVIHVEVAPFYTCKKINQLISETEAVVTNELEDGDRQKAMKRLRVPPLGAAQPAPAWTTFRVGLFCGIFIVLNITLVFAAVFKLETDRTVWPLIRIYRGGFLLIEFLFLLGINTYGWRQAGVNHVLIFELNPRNNLSHQHLFEIA... | Function: Inorganic ion transporter that mediates phosphate ion export across plasma membrane. Plays a major role in phosphate homeostasis, preventing intracellular phosphate accumulation and possible calcium phosphate precipitation, ultimately preserving calcium signaling. The molecular mechanism of phosphate transpor... |
Q9QZ71 | MKFAEHLSAHITPEWRKQYIQYEAFKDMLYSAQDQAPSVEVTDEDTVKRYFAKFEEKFFQTCEKELAKINTFYSEKLAEAQRRFATLQNELQSSLDVQKESSGVTTLRQRRKPVFHLSHEERVQHRNIKDLKLAFSEFYLSLILLQNYQNLNFTGFRKILKKHDKILETSRGADWRVIHVEVAPFYTCKKINQLISETEAVVTNELEDGDRQKAMKRLRVPPLGAAQPAPAWTTFRVGLFCGIFIVLNITLVFAAVFKLETDRTVWPLIRIYRGGFLLIEFLFLLGINTYGWRQAGVNHVLIFELNPRNNLSHQHLFEIA... | Function: Inorganic ion transporter that mediates phosphate ion export across plasma membrane. Plays a major role in phosphate homeostasis, preventing intracellular phosphate accumulation and possible calcium phosphate precipitation, ultimately preserving calcium signaling. The molecular mechanism of phosphate transpor... |
A5PJS2 | MELAERFLLDALAYLECALGVVCYVLLKLVGSPYGRYASSGSAFGLPARAAWTVQELPSLALPLLACAGAGAPAERLNRWPNCILLAMFLVHYAQRSLVFPFLIRGGKPMPLYAFLLAFIFCTYNGYLQSRYLSQYAVYADDWLSDPRFLTGSALWLIGMLINIHSDHVLRNLRKPGETGYKIPRGGLFEYISAANYFGEVVEWCGYALASWSIQGWAFAVFTFCVLFTRAQQHHKWYHEKFEDYPKFRKIMIPFLV | Function: Converts testosterone into 5-alpha-dihydrotestosterone and progesterone or corticosterone into their corresponding 5-alpha-3-oxosteroids. It plays a central role in sexual differentiation and androgen physiology.
Catalytic Activity: a 3-oxo-5alpha-steroid + NADP(+) = a 3-oxo-Delta(4)-steroid + H(+) + NADPH
Lo... |
P18405 | MATATGVAEERLLAALAYLQCAVGCAVFARNRQTNSVYGRHALPSHRLRVPARAAWVVQELPSLALPLYQYASESAPRLRSAPNCILLAMFLVHYGHRCLIYPFLMRGGKPMPLLACTMAIMFCTCNGYLQSRYLSHCAVYADDWVTDPRFLIGFGLWLTGMLINIHSDHILRNLRKPGDTGYKIPRGGLFEYVTAANYFGEIMEWCGYALASWSVQGAAFAFFTFCFLSGRAKEHHEWYLRKFEEYPKFRKIIIPFLF | Function: Converts testosterone into 5-alpha-dihydrotestosterone and progesterone or corticosterone into their corresponding 5-alpha-3-oxosteroids. It plays a central role in sexual differentiation and androgen physiology.
Catalytic Activity: a 3-oxo-5alpha-steroid + NADP(+) = a 3-oxo-Delta(4)-steroid + H(+) + NADPH
Lo... |
P24008 | MVPLMELDELCLLDMLVYLEGFMAFVSIVGLRSVGSPYGRYSPQWPGIRVPARPAWFIQELPSMAWPLYEYIRPAAARLGNLPNRVLLAMFLIHYVQRTLVFPVLIRGGKPTLLVTFVLAFLFCTFNGYVQSRYLSQFAVYAEDWVTHPCFLTGFALWLVGMVINIHSDHILRNLRKPGETGYKIPRGGLFEYVSAANYFGELVEWCGFALASWSLQGVVFALFTLSTLLTRAKQHHQWYHEKFEDYPKSRKILIPFVL | Function: Converts testosterone into 5-alpha-dihydrotestosterone and progesterone or corticosterone into their corresponding 5-alpha-3-oxosteroids. It plays a central role in sexual differentiation and androgen physiology.
Catalytic Activity: a 3-oxo-5alpha-steroid + NADP(+) = a 3-oxo-Delta(4)-steroid + H(+) + NADPH
Lo... |
P31213 | MQVQCQQSPVLAGSATLVALGALALYVAKPSGYGKHTESLKPAATRLPARAAWFLQELPSFAVPAGILARQPLSLFGPPGTVLLGLFCLHYFHRTFVYSLLNRGRPYPAILILRGTAFCTGNGVLQGYYLIYCAEYPDGWYTDIRFSLGVFLFILGMGINIHSDYILRQLRKPGEISYRIPQGGLFTYVSGANFLGEIIEWIGYALATWSLPALAFAFFSLCFLGLRAFHHHRFYLKMFEDYPKSRKALIPFIF | Function: Converts testosterone (T) into 5-alpha-dihydrotestosterone (DHT) and progesterone or corticosterone into their corresponding 5-alpha-3-oxosteroids. It plays a central role in sexual differentiation and androgen physiology.
Catalytic Activity: a 3-oxo-5alpha-steroid + NADP(+) = a 3-oxo-Delta(4)-steroid + H(+) ... |
Q8RW97 | MGSEPRFEPRPELIDLPVLQKFKLYATPSNFYLIGRDENKSFRRILKIDRRDQNELNLFEDPTRYTKDEMRELKRRMIVGNEESGGFKAITTCYGIIGFVRFLEPYYMLLITKRKKVGEICGHTVYGIAESQMIAIPHPSIQSKVAKSEAELRYKKLLSVVDLSKNFYFSYTYHLMYSLQKNIGNTERGNPHDNTMFVWNSFLTREIRKILQNSIWTVALIYGFFQQTKCSVSGEKFVFTIIARRSRHYAGTRYLRRGVNDIGRVANDVETEQIVSKVVPAGQKIPITSVVQVRGSIPLFWSQEASVFNPQPEIILNKKD... | Function: The PI(3,5)P2 regulatory complex regulates both the synthesis and turnover of phosphatidylinositol 3,5-bisphosphate (PtdIns(3,5)P2).
Catalytic Activity: a 1,2-diacyl-sn-glycero-3-phospho-(1D-myo-inositol-3,5-bisphosphate) + H2O = a 1,2-diacyl-sn-glycero-3-phospho-(1D-myo-inositol-3-phosphate) + phosphate
Loca... |
Q7X911 | MVSRLKIHSGLRLWEFPDQYVIEPTDGSSASCLDISRLDGSMKLIDQVAECNSLRVPKIRSIFGVVGMLKLLAGSYLVVVTESESVGSFLGHPIYKINSLKFLPCDHSLENPHEEQKKMETDDYSRLLSVAERTTGLYFSYEINLTLTAQRLHDLGDESKLLPLWRQAEPRFLWNNYMLEVLIDNKLDQFLLPVIQGSFHSFQTAIGRDIVDITLIARRCSRRNGTRMWRRGADPDGYVANFVETEQIVRMNGYTSSFVQIRGSMPFMWEQIVDLTYKPKFEIVQPEEAARIAERHFLDLRKKYGSVLAVDLVNKHGGEG... | Function: Phosphoinositide phosphatase that hydrolyzes PtdIns(3)P and PtdIns(4)P. Involved in priming for different defense responses.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 67626
Sequence Length: 593
Domain: The phosphatase catalytic core motif (or RXNCXDCLDRTN motif) from the SAC domain is... |
Q9C5G5 | METVDSRNKLHSRLRLWEFPDQYIIEPADGSGSSCLDISRVDASMKLIDQVPESNSVRVPKIRSIFGVVGMLKLLAGSYLVVVTESERVGSFLGHPIFKVTTLKVLPCDHSLKNSPEEQKKMETEFSKLLSVAEKTTGLYFSYEVNLTLSSQRLHEMGDESKSLPLWRQAEPRFLWNNYMLEVLIDNKLDQFLLPVIQGSFNSFETAIGRDIVDITLIARRCTRRNGTRMWRRGADLDGYVANFVETEQIVQMNGYTSSFVQVRGSMPFMWEQVVDLTYKPKFEIVQPEEAKRIAERHFLDLRKKYGSVLAVDLVNKQGG... | Function: Phosphoinositide phosphatase that preferentially hydrolyzes PtdIns(4)P. Regulates the accumulation of PtdIns(4)P on membrane compartments at the tips of growing root hairs leading to proper root hair development.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 68237
Sequence Length: 597
Dom... |
Q96328 | MEIAPSTSRFKLYDQFELLEFPDKYVVKPIESPEEGFSVNRRDGNIKPLDENASSGSPTRVSTIYGVGGTIRLLAGTYLLVITSREEVGNFLGLPIFRVTAMKFLPCNEALRFATAQEKKDETYFRTLLQALETTPGLYFSYETDLTLNLQRRCKLAEGWNRKPMWKQADPRYVWNWHLLEDLIECKLDGFIIPILQGSYQVAELKLKNSPAVVSIMSRRCTRRLGTRMWRRGANLEGDAANFVESEQIVEINGFKFSLLQVRGSIPLLWEQIVDLSYKPRLKINKHEETPKVVQRHFHDLCQRYGEIMAVDLTDQHGDE... | Function: Phosphoinositide phosphatase that hydrolyzes PtdIns(3)P and PtdIns(4)P.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 66464
Sequence Length: 588
Domain: The phosphatase catalytic core motif (or RXNCXDCLDRTN motif) from the SAC domain is found in metal-independent protein phosphatases and ... |
Q9HBV2 | MSPRGTGCSAGLLMTVGWLLLAGLQSARGTNVTAAVQDAGLAHEGEGEEETENNDSETAENYAPPETEDVSNRNVVKEVEFGMCTVTCGIGVREVILTNGCPGGESKCVVRVEECRGPTDCGWGKPISESLESVRLACIHTSPLNRFKYMWKLLRQDQQSIILVNDSAILEVRKESHPLAFECDTLDNNEIVATIKFTVYTSSELQMRRSSLPATDAALIFVLTIGVIICVFIIFLLIFIIINWAAVKAFWGAKASTPEVQSEQSSVRYKDSTSLDQLPTEMPGEDDALSEWNE | Function: Plays a role in acrosome expansion and establishment of normal sperm morphology during spermatogenesis (By similarity). Important for male fertility .
PTM: N-glycosylated.
Location Topology: Single-pass type I membrane protein
Sequence Mass (Da): 32143
Sequence Length: 294
Subcellular Location: Cytoplasmic ve... |
Q9DA48 | MRARGAGCPAGLLAVGWLILVGLQASQASNVTSSGGGVQEPAVAREGESESESESEEEAENEGEVPESETTAEADAEEEVQNRTIVKEVEFGMCTVTCGVGIREVILTNGCPGGESKCVVRVEECRGPVDCGWGKPISENLDSARLSCVHISPENRFKYVWKLLKPDQQPVILTNDSAVLEITREIRPLAFECDTLDNNEMVASVKFTVYTTNELQMRRSSRPDTDAVLVFVLTIGVIICIFVIFVLIFIIINWAAVKSFWGSKTSATEIQSELSSMRYKDSTSLDQSPTDIPVHEDDALSEWNE | Function: Plays a role in acrosome expansion and establishment of normal sperm morphology during spermatogenesis. Important for male fertility.
PTM: N-glycosylated.
Location Topology: Single-pass type I membrane protein
Sequence Mass (Da): 33343
Sequence Length: 305
Subcellular Location: Cytoplasmic vesicle
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D5K8A9 | MSPGGAGCSAGLLLTVGWLLLAGLQSTCGINVTAVQDPSLVSEGENEGEEEAENDSEVENEPQAEAEQDVSNKTVVKEVEFGMCTVTCGVGIREVLLTNGCPGGESKCIVRVEECRGPVDCGWGKPISENLESVRLSCVHTSPVNRFKYVWRLLRPNQQAVILANDSAILEVQRETHPMAFQCETLDNNEIVATVKFTVYTTAELQMKRSSRPDTDAVLVFVLTIGVIICIFVIFVLIFIIVNWATVKDFWASKASTTEIQSELSSMKYKDSTSLDQSPTEIPGHEDDALSEWNE | Function: Plays a role in acrosome expansion and establishment of normal sperm morphology during spermatogenesis. Important for male fertility.
PTM: N-glycosylated.
Location Topology: Single-pass type I membrane protein
Sequence Mass (Da): 32239
Sequence Length: 295
Subcellular Location: Cytoplasmic vesicle
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Q8IXA5 | MVSALRGAPLIRVHSSPVSSPSVSGPRRLVSCLSSQSSALSQSGGGSTSAAGIEARSRALRRRWCPAGIMLLALVCLLSCLLPSSEAKLYGRCELARVLHDFGLDGYRGYSLADWVCLAYFTSGFNAAALDYEADGSTNNGIFQINSRRWCSNLTPNVPNVCRMYCSDLLNPNLKDTVICAMKITQEPQGLGYWEAWRHHCQGKDLTEWVDGCDF | Function: Sperm surface membrane protein that may be involved in sperm-egg plasma membrane adhesion and fusion during fertilization. It could be a potential receptor for the egg oligosaccharide residue N-acetylglucosamine, which is present in the extracellular matrix over the egg plasma membrane. The processed form has... |
Q9D9X8 | MGICMSMYTQVLVPVDADGDHHILWSRFYERWGSCFNPCAGLVNCLPPHSSALYLCHRMEARSRAPRRQLCPPGITWLALAYLLSCLLASSKAKVFSRCELAKEMHDFGLDGYRGYNLADWVCLAYYTSGFNTNAVDHEADGSTNNGIFQISSRRWCRTLASNGPNLCRIYCTDLLNNDLKDSIVCAMKIVQEPLGLGYWEAWRHHCQGRDLSDWVDGCDF | Function: Sperm surface membrane protein that may be involved in sperm-egg plasma membrane adhesion and fusion during fertilization. It could be a potential receptor for the egg oligosaccharide residue N-acetylglucosamine, which is present in the extracellular matrix over the egg plasma membrane. The processed form has... |
B6VH79 | MISALWGALLIRVHSSPVSSPSVSGPPRLVSCGSSQSSALSQSGGSTSTTGTEARSRALGRRWCPAAIMLLALVSLLSCLLPSSEAKVYSRCELARVLQDFGLDGYRGYSLADWVCLAYFTSGFNAAALDYEADGSTNNGIFQINSRRWCSNLTPNVPNVCRMYCS | Function: Sperm surface membrane protein that may be involved in sperm-egg plasma membrane adhesion and fusion during fertilization. It could be a potential receptor for the egg oligosaccharide residue N-acetylglucosamine, which is present in the extracellular matrix over the egg plasma membrane. The processed form has... |
B6VH77 | MVSALREAPLIRVHSSPVSSPSVSGSRRPVSCLSSQSSALSQSGGGSTSAAGIEARSRALRRRWCPAGIILLALISLLSCLLPASEAKVYGRCELARVLHDFGLDGYRGYSLADWVCLAYFTSGFNTAAVDHEADGSTNNGIFQINSRRWCRNLTPNVPNVCQMYCS | Function: Sperm surface membrane protein that may be involved in sperm-egg plasma membrane adhesion and fusion during fertilization. It could be a potential receptor for the egg oligosaccharide residue N-acetylglucosamine, which is present in the extracellular matrix over the egg plasma membrane. The processed form has... |
Q32PB3 | MVLGWLPLLVMVLAPGTTGVKDCVFCELTDSTSCPGTSMRCGDDEDCFTGHGVAPGVGPIINKGCVHATSCGHEEPINYMGVTYSLTTNCCTGHMCNGAPDPTRGRLAGAAASLALGVLLLLQHVL | Function: Sperm surface membrane protein that may be involved in sperm-egg plasma membrane adhesion and fusion during fertilization.
Location Topology: Lipid-anchor
Sequence Mass (Da): 12964
Sequence Length: 126
Subcellular Location: Cell membrane
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Q7VUL8 | MNAVTDKSVADYIVADMALAGWGRRELAIAETEMPGLMAIRDEYAASQPLKGARIAGSLHMTIQTGVLIETLVALGAEVRWASCNIFSTQDHAAAAIAATGTPVFAIKGETLEEYWQYTHKIFEWPEGRHANMILDDGGDATLLLHLGARAEQDISVLAKPGSEEERVLFAAIKETLGRDPKWYSTRLAQIKGVTEETTTGVHRLYQMSQKGELAFAAINVNDSVTKSKFDNLYGCRESLVDGIKRATDVMVAGKIAVVAGYGDVGKGCAQALVALRAQVWVTEIDPICALQAAMEGFKVVTMEEAAAHADIFVTATGNY... | Cofactor: Binds 1 NAD(+) per subunit.
Function: May play a key role in the regulation of the intracellular concentration of adenosylhomocysteine.
Catalytic Activity: H2O + S-adenosyl-L-homocysteine = adenosine + L-homocysteine
Sequence Mass (Da): 51631
Sequence Length: 472
Pathway: Amino-acid biosynthesis; L-homocystei... |
A0A087WNH6 | MNAKPGFTDYIVKDIALADFGRKEISLAETEMPGLMATREEYGPKQPLKGARIAGSLHMTIQTAVLIETLAALGADIRWVSCNIYSTQDHAAAAIAAAGIPVFAVKGETLTEYWDYTAKLFDWHGGGTPNMILDDGGDATMLVHAGYRAEQGDTAFLDKPGSEEEEIFYALVKRLLKEKPKGWFAEIAKNIKGVSEETTTGVHRLYEMANKGTLLFPAINVNDSVTKSKFDNLYGCRESLVDGIRRGTDVMLSGKVAMVAGFGDVGKGSAASLRQAGCRVMVSEVDPICALQAAMEGYEVVTMEDAAPRADIFVTATGNK... | Cofactor: Binds 1 NAD(+) per subunit.
Function: May play a key role in the regulation of the intracellular concentration of adenosylhomocysteine, which is a strong inhibitor of SAM-dependent methyltransferases. Catalyzes the hydrolysis of S-adenosyl-L-homocysteine into L-homocysteine and adenosine.
Catalytic Activity: ... |
A6WX40 | MTASQDFVVKDLSLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLQALGAEVRWASCNIFSTQDHAAAAIAATGTPVFAIKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPGSEEEEVLFAQIKKRMAATPGFFTRQRDAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIIVTTTGNKDVITI... | Cofactor: Binds 1 NAD(+) per subunit.
Function: May play a key role in the regulation of the intracellular concentration of adenosylhomocysteine.
Catalytic Activity: H2O + S-adenosyl-L-homocysteine = adenosine + L-homocysteine
Sequence Mass (Da): 50776
Sequence Length: 466
Pathway: Amino-acid biosynthesis; L-homocystei... |
Q7V926 | MVAVPTSTASLQALPQYVVADIDLADFGRKELSIAETEMPGLIALRIKYGSEKPLKGARIAGSLHMTIQTGVLIETLVALGADVRWASCNIFSTQDHAAAAIAASGVPVFATKGETLDEYWAYTHRILEWGDGGTPNMILDDGGDATGLVMLGSKAESDSSVLDNPGNEEETALFASIRTKLAEDSSFYSRIKSSIQGVTEETTTGVARLYQMQKSGELPFPAINVNDSVTKSKFDNLYGCRESLVDGIKRATDVMVAGKVALVMGYGDVGKGSAQSLRGLGATVMIAEIDPICALQAAMEGYRVVRLDEVVQDVDIFVT... | Cofactor: Binds 1 NAD(+) per subunit.
Function: May play a key role in the regulation of the intracellular concentration of adenosylhomocysteine.
Catalytic Activity: H2O + S-adenosyl-L-homocysteine = adenosine + L-homocysteine
Sequence Mass (Da): 51748
Sequence Length: 476
Pathway: Amino-acid biosynthesis; L-homocystei... |
O58275 | MDCGRDYCVKDLSLADEGWKKIDWVSRFMPVLQHIRREFEEKKPFKGVRIAATLHLEMKTAFLLLTLKAGGAEVSAAASNPLSTQDDVVAALAKAGVKVYAIRGESKEQYYEFMHKALDIRPNIIIDDGADMISLVHKERQELLDEIWGGSEETTTGVIRLRAMERDGVLRFSVIAVNDSYMKYLFDNRYGTGQSTWDGVMRATNLLIAGKNVVVVGYGWCGRGIAMRARGLGATVIVVEVDPIKALEARMDGFLVMNMKEAAKIGDIFITATGDIKCIRREHFELMKDGAIMANAGHFDVEIWKPDLEELAVEISNPRP... | Cofactor: Binds 1 NAD(+) per subunit.
Function: May play a key role in the regulation of the intracellular concentration of adenosylhomocysteine.
Catalytic Activity: H2O + S-adenosyl-L-homocysteine = adenosine + L-homocysteine
Sequence Mass (Da): 47274
Sequence Length: 421
Pathway: Amino-acid biosynthesis; L-homocystei... |
Q55CW2 | METTTITSILDDNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNYNYKEWDNEMVCKWLHDTKRIQKVSIEIFKANEITGNYLESLTDKMLLKMGLTIRDLLSFRSEFDDLKNIFNETNLYNNIQKNSIDYSIDNNNLNNLNNNNNNNNNNNNNNNNNNNNNNNNNNKTIKAPTIDISQYVFIKQMKGSVNCSLEKYINKKTKERILIKRIGKSNINEETIINEISILCSIDHPNIIKTYGYYKDENYYYVASKFYPKGSIKTKSKSTPYNEINAKKVFGKVLKAIDYLHSLDPPIIHRDINSDNILFDENDEPILIDF... | Catalytic Activity: ATP + L-seryl-[protein] = ADP + H(+) + O-phospho-L-seryl-[protein]
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 99725
Sequence Length: 875
Subcellular Location: Membrane
EC: 2.7.11.1
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P02743 | MNKPLLWISVLTSLLEAFAHTDLSGKVFVFPRESVTDHVNLITPLEKPLQNFTLCFRAYSDLSRAYSLFSYNTQGRDNELLVYKERVGEYSLYIGRHKVTSKVIEKFPAPVHICVSWESSSGIAEFWINGTPLVKKGLRQGYFVEAQPKIVLGQEQDSYGGKFDRSQSFVGEIGDLYMWDSVLPPENILSAYQGTPLPANILDWQALNYEIRGYVIIKPLVWV | Cofactor: Binds 2 calcium ions per subunit.
Function: Can interact with DNA and histones and may scavenge nuclear material released from damaged circulating cells. May also function as a calcium-dependent lectin.
PTM: N-glycosylated with a complex biantennary oligosaccharide chain with a sialic acid at the end (disialo... |
Q8SS09 | MLDNIQEYLGVVKAKLTEFYEKVFQNFVKSLFGKPSSILFLGIDNAGKTTLVNKLKSDSTDVYMPTHHPSTSYIEIGNLKAQVIDLGGHTAARLAWRDYFYDCHGIVFIVDVHDVERFQEVREAYETVLSLEKRAPVVVLMNKIDLEGHTPETAEADYQWKSWLSQETGIENQEDPERGQVVKIFYVTITSGSANSITGPLARAFKWLEAMITYNNKKESL | Function: Small GTPase component of the coat protein complex II (COPII) which promotes the formation of transport vesicles from the endoplasmic reticulum (ER). The coat has two main functions, the physical deformation of the endoplasmic reticulum membrane into vesicles and the selection of cargo molecules. SAR1 control... |
P0C583 | MWLWSWFYDILSNLGLLNKHGKLLFLGLDNAGKTTLLHMLKNDRVAILQPTLHPTSEELSVGNVKFTTFDLGGHQQARRLWKDYFPEVNGIVFLVDAKDHERLPEAKAEIDALLSMEELAKVPFVVLGNKIDHPEAVSEDELRQRLGLWQTTGKGRVPLEGIRPIEVFMCSVVMRQGYGEAIRWLSQYV | Function: Small GTPase component of the coat protein complex II (COPII) which promotes the formation of transport vesicles from the endoplasmic reticulum (ER). The coat has two main functions, the physical deformation of the endoplasmic reticulum membrane into vesicles and the selection of cargo molecules. Vtr-7/sar1 c... |
Q0UKC0 | MTVWDVLSSLGLMNKHAKLLFLGLDNAGKTTLLHMLKNDRVAVLQPTLHPTSEELSIGNVKFTTFDLGGHAQARRLWRDYFPEVSGIVFLVDAKDHERLNESKAELDALLAMEELKNTPFVILGNKIDHPEAVSEDQLRATLGLYQTTGKGKVPLEGIRPIEVFMCSVVMRQGYGEGIRWLSQYV | Function: Small GTPase component of the coat protein complex II (COPII) which promotes the formation of transport vesicles from the endoplasmic reticulum (ER). The coat has two main functions, the physical deformation of the endoplasmic reticulum membrane into vesicles and the selection of cargo molecules. SAR1 control... |
Q01475 | MFIINWFYDALAMLGLVNKHAKMLFLGLDNAGKTTLLHMLKNDRLAVMQPTLHPTSEELAIGNVRFTTFDLGGHQQARRLWRDYFPEVNGIVYLVDCCDFERLSESKAELDALLAMEELARVPFLILGNKIDAPGAISEDELKAALGLYQTTGKGVSKPVPGIRPIEVFMCSVVLRQGYGEGFKWLAQYV | Function: Small GTPase component of the coat protein complex II (COPII) which promotes the formation of transport vesicles from the endoplasmic reticulum (ER). The coat has two main functions, the physical deformation of the endoplasmic reticulum membrane into vesicles and the selection of cargo molecules. Sar1 control... |
Q9NQZ2 | MVGRSRRRGAAKWAAVRAKAGPTLTDENGDDLGLPPSPGDTSYYQDQVDDFHEARSRAALAKGWNEVQSGDEEDGEEEEEEVLALDMDDEDDEDGGNAGEEEEEENADDDGGSSVQSEAEASVDPSLSWGQRKKLYYDTDYGSKSRGRQSQQEAEEEEREEEEEAQIIQRRLAQALQEDDFGVAWVEAFAKPVPQVDEAETRVVKDLAKVSVKEKLKMLRKESPELLELIEDLKVKLTEVKDELEPLLELVEQGIIPPGKGSQYLRTKYNLYLNYCSNISFYLILKARRVPAHGHPVIERLVTYRNLINKLSVVDQKLSS... | Function: Essential for gene silencing: has a role in the structure of silenced chromatin. Plays a role in the developing brain (By similarity). Part of the small subunit (SSU) processome, first precursor of the small eukaryotic ribosomal subunit. During the assembly of the SSU processome in the nucleolus, many ribosom... |
A0A084B9Z1 | MSEALIGGGAKKVYILSRRRDVLESAAAKHEGILIPIQCDVTSKASLQSAVDIVTKDSGYVNLLIANSGTLGPTNRLDHDLSIHELRKNVFDNVSFEDFNNTLSVNTTGAYFTMLAFLELLDAGNKNALKGGFGGPSTEGGAPSIQSQVIFTSSLGAYSRDRLSPPAYSASKSALSHLAKHASTNLAKYGIRVNVLAPGLFPSEIATLMTANRDPATENLGDRMFIPARKFGGAEEMGGTVLYLASRAGSYCNGLILVNDGGRLSVMLSEY | Function: Short-chain dehydrogenase/reductase; part of the satratoxin SC1 cluster involved in the biosynthesis of satratoxins, trichothecene mycotoxins that are associated with human food poisonings . Satratoxins are suggested to be made by products of multiple gene clusters (SC1, SC2 and SC3) that encode 21 proteins i... |
Q8W2B8 | MACINGENRDFSSSSSLSSLPMIVSRNFSARDDGETGDEFPFERIFPVYARGTLNPVADPVLLDFTNSSYDPIWDSIREEAKLEAEEEPVLSSFLYASILSHDCLEQALSFVLANRLQNPTLLATQLMDIFCNVMVHDRGIQSSIRLDVQAFKDRDPACLSYSSAILHLKGYLALQAYRVAHKLWKQGRKLLALALQSRVSEVFGIDIHPAARIGKGILLDHGTGVVIGETAVIGDRVSILHGVTLGGTGKETGDRHPNIGDGALLGACVTILGNIKIGAGAMVAAGSLVLKDVPSHSMVAGNPAKLIGFVDEQDPSMTM... | Catalytic Activity: acetyl-CoA + L-serine = CoA + O-acetyl-L-serine
Sequence Mass (Da): 38424
Sequence Length: 355
Pathway: Amino-acid biosynthesis; L-cysteine biosynthesis; L-cysteine from L-serine: step 1/2.
Subcellular Location: Cytoplasm
EC: 2.3.1.30
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Q10QH1 | MAACVDKWPPAAYLCRLPEKFYCVLPDCTATDRPVVTASAAPAPAASGSSGDYVWDVLRAEAQDDADDEPLLRKFYHDLVLSRPSLESALASLLAAKLCIPGALPQDQLRDLLAGALAAHPEAGRAARADLVAARDRDPACAKMVHCFLYYKGFLALQAHRAAHALWSDNRRAPALLLQSRASEVFGVDIHPGARIGCGILLDHATGVVIGETAVVGYDVSILHGVTLGGTGKESGDRHPKVGDGVLIGAGASVLGNVHIGDGAKIGAGAVVLRDVADGTTAVGNPAKPIIGKKAAPQRRPEELPGVTMEQRWSD | Catalytic Activity: acetyl-CoA + L-serine = CoA + O-acetyl-L-serine
Sequence Mass (Da): 32921
Sequence Length: 315
Pathway: Amino-acid biosynthesis; L-cysteine biosynthesis; L-cysteine from L-serine: step 1/2.
EC: 2.3.1.30
|
A0A084B9Z2 | MNGIYALQQTFVKFSLLALYHRLFWVNRHFVRSVWLVGIVQGCWGIAILLVHIFLCTPMEKIWTPWMVEGTCVDVNTLFAIYEALNSVLDFIVAGLAIWMLPSLQIRKSTRWHLAGLFVLGAFSGFIGIIKIVEAYDSAQRNFQAVIWNVVQMSISIICCCAPIYRSILPKMGMSSIPSWASWSLRGSSRRSKAVASTADGTSKFSMRSYQGEGKAGGTSVSGNWINLDGSSQRALAWVDAESHGKDQSTYQDIPMGRMKVERSVEVI | Function: Part of the satratoxin SC1 cluster involved in the biosynthesis of satratoxins, trichothecene mycotoxins that are associated with human food poisonings . Satratoxins are suggested to be made by products of multiple gene clusters (SC1, SC2 and SC3) that encode 21 proteins in all, including polyketide synthases... |
Q42538 | MPPAGELRHQSPSKEKLSSVTQSDEAEAASAAISAAAADAEAAGLWTQIKAEARRDAEAEPALASYLYSTILSHSSLERSISFHLGNKLCSSTLLSTLLYDLFLNTFSSDPSLRNATVADLRAARVRDPACISFSHCLLNYKGFLAIQAHRVSHKLWTQSRKPLALALHSRISDVFAVDIHPAAKIGKGILLDHATGVVVGETAVIGNNVSILHHVTLGGTGKACGDRHPKIGDGCLIGAGATILGNVKIGAGAKVGAGSVVLIDVPCRGTAVGNPARLVGGKEKPTIHDEECPGESMDHTSFISEWSDYII | Catalytic Activity: acetyl-CoA + L-serine = CoA + O-acetyl-L-serine
Sequence Mass (Da): 32770
Sequence Length: 312
Pathway: Amino-acid biosynthesis; L-cysteine biosynthesis; L-cysteine from L-serine: step 1/2.
Subcellular Location: Cytoplasm
EC: 2.3.1.30
|
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