ids stringlengths 6 10 | seqs stringlengths 11 1.02k | texts stringlengths 108 11.1k |
|---|---|---|
A0QJU9 | MSSPDQDPREAIAQGDDEVIDVRRGMFGAAGTGDTSGYGRLVRTVTLPGSSPRPYGSYFDDVVDTLTESLQSNGIEFHQAIEKVVVYRDELTLHVDRAALPHVAQHLRDDPRLRFEMCLGVSGVHYPHETGRELHAVYPLQSITHNRRVRLEVAVPDGDPHIPSLYRIYPTTDWHERETYDFFGIIFDGHPSLTRIEMPDDWHGHPQRKDYPLGGIPVEYKGAQIPPPDERRAYN | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
Q1AVI6 | MLREERRAAEEAITLIRPATSRLVDPDIRDEFGLETLDMNMGPQHPAMHGLLRLILELDGETIVRCDPVMGYLHRCQEKIAENRTYPAVIPLTDRLDYFANMHNEHGYCLAVEDLLGVEIPPRAEYIRVLMCELMRIASHLPSIGFLLLELGAFTPILYAFRERERIQNFFEAVTGARMMFHYIRIGGVKADLPPDIPEKIWEYVEGLEKRIKPDFIDLIEGNEIFIERTRGISRLTQEEAIELGLTGPPLRCTGVAFDVRRDYPYSVYPELDFEVVTDTAGDVEASYRVRIKEVYESIKIIRQCLEKMPEGEVMGDVGR... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
Q2S5J0 | MPQTQKPDFPGNDLGDQFRFWPKHNEKIYERLENKHAWLEEKRAAAQGDGKPPATQRSEVDPLENEMILNIGPQHPATHGVLRCVVKMDGETIEKSVLDIGYLHRGIEKLAEHKTYQEFMPYTDRMDYLSPYSNNVAWCLAVEKLADIEVPERAQWIRMIMSELARISSHCLWLGVGMMDAGAVSGFVWTFQEREEIYSIMDEVAGARFTVSHSRIGGVANDFSPRAIEMIRDFVDTFPDRIAGWEGLLNKNRIWVERNKGVGRVTKEEALELGLTGPNLRGSGVPYDVRRFEPYLKYDEVDFTIPVREEGDCLARYFLR... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
Q1GTK0 | MFEGYPVDTANTAGDQAVTNYTINFGPQHPAAHGVLRMVMELDGEIIERVDPHVGLLHRGTEKLIEYKTYLQALPYFDRLDYCSPLGMEHSYVLAIEKLLDLEVPARAQYLRTMFAELTRICNHMLNIGSHVMDVGAMTPNLWVFELREDCLNFFERASGARMHSAYFRPGGVHQDVPEKLLVDIGEWVETRLPKLFGDAMSLVIDNRIFKQRNVDIATVSKEDALAWGFSGPMIRGSGIAWDLRKSQPYDAYAAMEFDIPVGTRGDCYDRFMVRVEEVYQSAKIIKQCLRDMPTGPIASLDRKVVPPKRGEMKQSMESL... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
A0LEQ1 | MPKRFLAPVTEQIYTLNLGPQHPSTHGVLRVLLDLDGEFIVKADPVIGYGHRGHEKMGENRLFKQFLPNTSRLDYLSGFLFNHGYVLAVEKLAGIPVPPRAQFIRTICSEFNRIASHLLWFGTYVMDLGGFTPFLYAFDDRERILDILDWVTGSRLTYSYCRFGGVDRDIDTRFTDMARDFIKRLRSRWPDYHNLVTRNIIFIHRTRGVGVITPEQARQFGVTGPNLRACGIAFDTRKAEPYEVYDQFDFEIPVGSDGDALDRYRVRFEEMEQSLRIIEQALDRLPGGPFMNDSVPTRLKPPKGEVYFAFESARGQAAYY... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q8A0F7 | MFDFSIVTNWIHEMLLSVMPEGWAIFIECIAVGVCIVALYAILAIVLIYMERKVCGFFQCRLGPNRVGKWGSIQVICDVLKMLTKEIFTPKDADRFLYNLAPFMVIIASFLTFACIPFNKGAEILNFNVGVFFLLAASSIGVVGILLAGWGSNNKFSLIGAMRSGAQIISYELSVGMSIMTMVVLMGTMQFSEIVEGQADGWFIFKGHIPAVIAFIIYLIAGNAECNRGPFDLPEAESELTAGYHTEYSGMHFGFFYLAEYLNLFIVASVAATIFLGGWMPLHIIGLDGFNAVMDYIPGFIWFFAKAFFVVFLLMWIKWT... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q6MGN3 | MGMGKDIFEITVNGLKLVVIFLMMVQAVPILVWLERRGSAFIQDRLGPNRVGPLGLVQLLADAVKFLNKENFMPQTAKPFLYYAAPIFALIPGAVAFSAIPLSSPIQVGTFEMFGSTWGPYTFLVQGYDIGVGIVFILGVSSLAAYTLLMAGWGSGNKYTLMGALRASAQTISYELALGLSIVGVIMLYGTFNLTEMTLAQQGPLAFSFLGHTITANWLPNWGIFYQPVGALLFFSAAFAESNRLPFDLAEGESELVGGFHTEYGGFKFNMFFIGEYGHMMIASGLMVLFFFGGYTIPYVSVAELNEWAAGVASTAGKAS... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
B3CUK2 | MTICTDIIANGYDLKTLIYNSGVVSIKVIALIICLLLATAYLTFAERKVIAYMQLRVGPSLAGPFGLLQPIADAVKLVFKEPIIPAKADRKLFIIAPIITFVLSLLGWSVIPIDHDIVLSRIHIGGILFILAVTSLGVYGIIIAGWASNSKYAFLGAVRSAAQMISYELAMALSIVAVLIVTGEMDLIQIVEAQKTRPIWLTIMMLPLAVIYFISILAKTNRLPFDLPEAESELVAGYNVEYSSMAFAMFFLGEYANMILGSSLMTIMFLGGYLPPFNLEILTFIPGYIWFILKVSMVLFCFLWIRATLPRYRYDQLMYL... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
A1B487 | MAEFWASPYGFALSMLLQGLAVIAFVMGSLIFMVYGDRKIWAAVQMRRGPNVVGPWGLLQTFADALKYIVKEIVIPAGADKFVYFLAPFLSMMLALFAFVVIPFDEGWVMANINVGILFIFAASSLEVYGVIMGGWASNSKYPFLASLRSAAQMISYEVSLGLIIIGIIISTGSMNLTAIVEAQRGDYGLLNWYWLPHLPMVVLFFVSALAECNRPPFDLVEAESELVAGFMTEYSSTPYLLFMAGEYIAMYLMCALLSLLFFGGWLSPVPFIADGWWWMVIKMWFWFYMFAMVKAIVPRYRYDQLMRIGWKVFLPLSLG... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
A7HY42 | MTDVLIAYGIPLAIIAAQSLALIVALLLVTAYVLLADRKIWAAVQLRRGPNVVGAFGLLQSFADLLKFVFKEIVIPAGANKGIFLLAPLVTVVLALSGWAVIPLDARMVIADINVGILYIFAISSLGVYGVIMAGWASNSKYPFLSALRAAAQMVSYEVSIGFVIVCVLMTAGSLNLTAIVESQRTIWYFIPHLPMFVIFFISALAETNRPPFDLAEAESELVAGFMVEYSSTAYMMFMLGEYVSILLMCAMTTILFLGGWLPPIDIAPFNMVPGVIWFLLKVFLVFFMFAMVKAFVPRYRYDQLMRLGWKVFLPISLFW... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q6MDQ9 | MIDDLIIILIKSAVVILLLFTAAAYMTFLERIVMARLQLRMGPVRVGPFGLFQPLADGIKLLCKERFQPANVETFVYWLAPGISLFTALFIFVLIPFGGVVEIAGRLIYLQIADINVGVVFLLAFSSLAVYGVVLAGWASNNRYSLIGGLRGTAQMISYEIPMGLSLLTVVLSTGTLSLREIVELQQNHWLIWTNPISFIIYFITSFAETNRAPFDLPEAEQELTAGYHTEYGGMKFAAFFLGEYINILAVSAIATTLFFGGWHGPGDIPILWFGLKVAIFVFIFMWVRATMPRFRYDQLMSFGWKVLIPIAILNLIITA... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q4FM84 | MEYLNIIFLQTYKILFLLVPVLVSVAMIVWLDRRIWAFVQKRQGPNVVGPFGLLQSLADALKYIFKEVIIPSSSNKVIFILAPIVTMTLALVSWAVIPFSTTQVLADINVGVLYLFAVSSLGVYGIIMGGWASNSKYPFLGAIRSAAQMVSYEVSIGVIIINVLLCVGSLNLNDIIMAQENLWFIIPLFPMFVIFFISALAETNRPPFDLPEAEAELVAGYQTEYSGMMYAMFWLGEYANILLMCAMGSILFLGGWLSPIDLYPFNLIPGAIWMIFKILFLFVLFALVKAVVPRYRYDQLMRLGWKIFLPLSLTWVVLTA... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q6MIR9 | MSVMQNNSEKSKWFLPGILGGLATTMKHLLKNLFNQKKMMTLNYPEEKYEYSPRFKGNHVLTVKKDGSLRCTACMLCATNCPAECIKITAAEHNDPTVEKFPISYEIDILRCVFCGFCEEACPVDAIRLGPEWQTPGVNGANFIYDINHLAYRPNLKGGILTHVDDEERHKAGI | Cofactor: Binds 2 [4Fe-4S] clusters per subunit.
Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (fo... |
C5D981 | MSSVPLSVYLVLALILFCIGLYGALTKRNTVIVLICIELMLNAVNINLVAFAKYGAHPGIAGQIFALFTITVAAAEAAVGLAILMALYRNRKTVHIDEIDSMKH | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
A9HN78 | MIMRPTPDMAMLLAAGLFALGLLGVLVRRNLLFMLMSIEIMLNAAALAFVAAGTRWHAAEGQVMFLMILSLAAAEAAIGLAILLRMHQAGRPTLDADTGNRLKG | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
O25860 | MIGLNHYLIVSGLLFCIGLAGMLKRKNILLLFFSTEIMLNAINIGFVAISKYTHNLDGQMFALFIISIAASEVAIGLGLVILWFKKFKSLDIDSLNAMKG | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
B3E9V9 | MDNLSNYLIVSAVLFSIGTIGVLTRKNAIVVFMCIELMLNAVNLTFVAFSRHLGNLDGQIFVFFIMTVAAAEAAVGLALFIAFFNNRESIDIDDANLMKW | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
A1JLI8 | MIPLQHGLILAAILFVLGLTGLIIRRNLLFMLISLEVMINAAALAFVVAGSYWGQADGQVMYILAITLAAAEASIGLALLLQLYRRRHTLNIDTVSEMRG | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q0APX7 | MTADMLSHDLSLLIPELVLAGGAMALLMLGVFLKGDGTEKLVQWLTVGLLAAAALAALFLVSGEGMAFNDSFVFDSLARFSKTAIGLVAAIAMLLAMPYLQAEKLGKIEYPVLVVLAVTGMMMMVSANDLIAMYMGIELQSLALYVLAAFNRDSLRASEAGLKYFVLGALSSGLLLYGASLVYGFAGSTGFGDIALAVESGSNIGLTVGLVFVICGLAFKVSAAPFHMWTPDVYEGAPTPVTAFFATAPKFAAIVLLARVLMEPFGAVVDQWRDVIWMIAVLSMAVGAFGALTQQNIKRLMAYSSISNMGYALVAVAAAS... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q608Y9 | MTTDALTALLPFIVLSAAAVAVMLAIAIRRSFRLVFWLTVGGLLAGLSTLPHASSVAPLQVTDLLRVDAYGLFFHALFLLAALVVALLCLAYFRRRENENEEIFVLLLTSTLGALLLVSSAHLAMFFLGLEVLTISLFPMIAYSVRASRPLEAGIKYLMLSGLASSFLMFGMAMVYGDLGVLSFEQIGAHGAELEQKPLALAGLFLILAAIGFKLSLVPFHLWTPDVYQGAPTPVTAFLATVSKASVFALLLRFFTAAHAERSETFLCVLGLLAVVSILAGNLLALLQVSLKRLLAYSSIAHMGYLLTGFVAAGLLRRDL... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
B3DZT0 | MNAFFVFCTPECFLSLSALVLLLWQALAKIHDKSIGILVLADYLVAGVLLLPFVENQGIFWNGLYVWDKMAVLWKVFFLITGFLVSYLSLESDRLIPKARSEFYILPLFTTAGMALLASVRDFILLFVGLEIVTVSFYVFVAFQREFPSALEAGVKYLIIGALASSFLVMGIAFVFGITGSTQFDEVARFAQNNPVNGPLILGLVFILVGLGFKASAVPFHVWTPDVYQGASTPITTYLAVGSKAAGFVVLLRILNLPFYDPGFQKHWIPLISLMALLSVIVGNLAAIPQRNIKRMLGYSSISHGGFLLMGLSAHNKIGC... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
P0A5M1 | MILPAPHVEYFLLAPMLIVFSVAVAGVLAEAFLPRRWRYGAQVTLALGGSAVALIAVIVVARSIHGSGHAAVLGAIAVDRATLFLQGTVLLVTIMAVVFMAERSARVSPQRQNTLAVARLPGLDSFTPQASAVPGSDAERQAERAGATQTELFPLAMLSVGGMMVFPASNDLLTMFVALEVLSLPLYLMCGLARNRRLLSQEAAMKYFLLGAFSSAFFLYGVALLYGATGTLTLPGIRDALAARTDDSMALAGVALLAVGLLFKVGAVPFHSWIPDVYQGAPTPITGFMAAATKVAAFGALLRVVYVALPPLHDQWRPVL... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
A3Q537 | MNPEEAMRPLLMASEMMMFGAGLVALIAGSFLRRQRQWWVGVMAAAAQVGVIGVAVVQMVGPDQMAFEGAFSVDTATGVARIACAAGLLLIWAVAGAEMRASPREAETYALLMFSATGVLVLAGAEDLLLLVAGYFLASIPLYGLVGLARSAAAAEAAMKAYLMGALFGILLMLGVTILYGLTGATRYPQLAMTLSGAPAVAVAAGVVGVLAGLMFEAGGVPAHFWVPDAAQGANATAATFLTTVPKIGALVALYRLTTVLPDTLAWPVLIAVFAVISMTLGNLAAYWQQDPRRLLGWSTVSQVGYLLVPITVAGASELA... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
Q1DDD3 | MNLPNLSLADFLPLLPAIIMVVGASILLLSEVFLSTTASRAYQAVLTVVTAVAAGAMALTTMFEPPQEVMLGFGVMDPFSSFLTFVVCVGLGLATLSSVSFLRKRGAERGEFYALMLFASAGMSLLAMSNELITLFVNIEVLSLSTYALTSYLRRGTRPSEAGFKYFILGAFSSAVLLYGAALLYGATGTTHLTAMAGPLSTAMSSQPGLVYAGIILVITGFAFKVAAVPFHMWTPDVYEGAPTPVTALMSVGVKAAAFAAMVRVFFMVGKGVDPQMLLGLFSVLAFLTMVAGNLLAIPQRNVKRMLAYSSIAHAGYLLV... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q5F629 | MNWSDLNLMPALPEVALLSLLVLLLPADLWASDDKCRWTHYGALATVAVTAAVQLAVWEQGSTSSFNGMYIADGMSRLAKMVLYALTFVLFVYAKPYNQVRGIFKGEFYTLSLFALLGMSVMVSAGHFLTAYIGLELLSLALYALIALRRDSGFAAEAALKYFVLGALASGLLLYGISMVYGATGSLEFAGVLASSFNEEANEWLLKLGLVFIVVAVAFKLGAVPFHMWMPDVYHGAPTSVTALVGTAPKIAAVVFAFRILVTGLGTVHHDWSLMFALLAAASLLVGNLAAIMQTNIKRMLAYSTVSHMGFILLAFMAGA... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
C6V5H7 | MNQYLFLLPEITLFILSCLLLFLKSRNEFGLIAVLITLAATFFSQTCTSVEILNGMLLISPFTQNVKLVILAFTCVFFIQAIAVKQSYSKNFSVLVLLSLLGMLLSVSSSTLASLYLAVELHSIGQYILACIKHKSIKSAEAGVKYTLLGTFMSAVMIYGISLIFVVSGDLSLKSLFIANSKIHSIGILLFISGLMFKVAAAPFHAWIGDIYEGAPTVSTTFFAVLPKLSLIVVLVSLISNLEPIAYTGSTYSTELMENSQYLRNILFTSGILSIAFGTFSAFGQKNIKRFIGFASIAHVGYMLLGVSNSASLSFGNPGI... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q82TV6 | MDFLLPDFTPAYPEIFLLLMVCVVMLADLFAGERNRYLAFYLSLLTLAGCALVTCGIYSTEVRYTFTGMFVGDAMSDILKLLIYVTVAAVLIYSRSYISTRGLLKGEFFSLALFATLGMMVMVSANHLITLYLGLELLSLSLYAMVALQRESAIATEAAIKFFVLGALASGFLLYGMSMLYGATGTLHLPELAKVIHSGQADHEIFIIGLVFVVAGIGFKLSAVPFHMWAPDIYEGAPTAVTLFIGSAPKFAAFGFVMRLLVGGLGDLVTDWQGMLVLLAVASMAVGNIAAIAQQNIKRMLAYSTISHMGFVLLGFIAAG... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
Q2YA93 | MNPMPSALPSDFLHVDLVTLSPLILLAAAAVVVMLTAAFYRHPRPVMILTLAGLVLSFMALFLSQGTASSQVTTLLILDQYALFFIGLIVVATFVVAILCYRYFGGGESRHEALYILLLLAALGGGVLVASSHFASFLLGLELLSISLFALIAYPRFTEHPLEAGIKYLILAGFSSGLLLFGMALVYAQLGTMQFVKIGTMLAAPGAALELYGLAGLALIVTGVGFKLALVPFHMWTPDVYEGAPVPITAFIATASKGAMLVLLLRYFLMAGAHQSHSITFALSLIAVATILVGNLLALLQNNIKRILAYSSIAQLGYLL... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
A1SE40 | MDFIKPTIEYGDVWPLLVVFGVAAVGVLVEGFVPRAQRYLVQAALAIAGVVVALVGTILVARDLDVLGDGAARGAIDVEGTIAVDGPALFIWGMLLVFALGGALLFAERRLEGGVSAFAGQAAALPGTEAERQASTRGLEHTEVYPLMMFALGGMMLFAAANDLLTLFVALEVLSLPLYLLSGLARRRRLLSQEAALKYFMLGAFSSGFFLYGAALVYGFSGSMGFAEINEAVRDDVGNQTLLLIGIGMLSVGLLFKVGAVPFHSWTPDVYQGAPTAVTAFMAAGTKIAAFGAMLRLFYVAFGSDRWSWQPMLWIIAILT... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
B3CUJ6 | MEMLYGIMPEISLLLSALIFQLIGAYSNNTLTHVIAKMAIGFAAILIAILVFHPSWFNGIYWNNTFIVNQSKIYLKIIILIFYIFLTLIYSGYIKVANLKGHSEYIVLMQLGALGGLILVSANDFMVMYLGIEMQGIIGYILTTFNYNNSRSSEAGLKYFILGTVFSAIMLFGISLVYGTTQSIRYDIALHALQNPSSDMAVLVAAILMILVGVLFKLSIAPFHMWTPDIYDGAPLVVVALFSSLPKISVLALLGNLLSELKFASDAFFYIKTIIMVLACLSLIVGAFGALLQQSIQRFIAYSAILNLGYAVLALVANSS... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be ubiquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrogen ... |
C6D5D2 | MTEFVPLTWHDTLYLAPELILAAMFLILIVTDLILPGRTNRAIIGWLSLAGLLLSLAAVIWRMIDMNPSGVSAAEAAEAGKAISLLGASYRVDDYGNLLKIIFLIGTSLVVLLGLGSTQKDDAVTDKAEFYYLLLPAAAGAMIMASSGNLVTLYIGLELLSITTYVLVGLRKRSSLSAEAAFKYVVTGGIASAFVLFGMSYLYGVTGSVSLADFPTALPQAFTDYKALVYVGFFFLIAGFGIKIAAAPFHIWAADVYQGAPTPVSAFLAVIAKGAALAAVFRFLYSSAFFLTGGPGKQAGDDVFFALLVIAAAAMIAGTV... | Function: NDH-1 shuttles electrons from NADH, via FMN and iron-sulfur (Fe-S) centers, to quinones in the respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be a menaquinone. Couples the redox reaction to proton translocation (for every two electrons transferred, four hydrog... |
A2RKA7 | MANETVIQMIDVTKRFGDFVANDKVNLELKKGEIHALLGENGAGKSTLMNILSGLLEPSEGEVHVKGKLENIDSPSKAANLGIGMVHQHFMLVDAFTVTENIILGNEVTKGINLDLKTAKKKILELSERYGLSVEPDALIRDISVGQQQRVEILKTLYRGADILIFDEPTAVLTPAEITELMQIMKNLIKEGKSIILITHKLDEIRAVADRITVIRRGKSIDTVELGDKTNQELAELMVGRSVSFITEKAAAQPKDVVLEIKDLNIKESRGSLKVKGLSLDVRAGEIVGVAGIDGNGQTELVKAITGLTKVDSGSIKLHN... | Function: Part of an ABC transporter complex involved in the uptake of all common nucleosides . Responsible for energy coupling to the transport system (Probable).
Location Topology: Peripheral membrane protein
Sequence Mass (Da): 55544
Sequence Length: 506
Subcellular Location: Cell membrane
EC: 7.6.2.-
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A2RKA6 | MNNKTRKVLVPLIAIVFGFLLGAIIMLAFGYNPIWGYEDLFISALGSARSIGETLQTMGPLILTALSFAVAMKVGLFNIGMSGQALAGWISSMWFALSFPDIPRLLMIPLVVIIGMVFGAFMGFIPGILRALLGTSEVITTIMLNYIMLFFSTFMIHSMFQKNILMDNTTDQTKLISANASFRTNWMSSLTDNSTLNIGLIIAIIALVIMAIIFTKTTLGFEIKAVGLNPDASEYAGISAKRTLILSMVVAGALAGLGGVVYGFGYMQNFVSQSASLDIGFYGMAVALLGGNSPIGILFAALLFSVLQTGAPGMTNDGIP... | Function: Part of an ABC transporter complex involved in the uptake of all common nucleosides . Responsible for the translocation of the substrate across the membrane (Probable).
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 38876
Sequence Length: 364
Subcellular Location: Cell membrane
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P0AFF3 | MDRVLHFVLALAVVAILALLVSSDRKKIRIRYVIQLLVIEVLLAWFFLNSDVGLGFVKGFSEMFEKLLGFANEGTNFVFGSMNDQGLAFFFLKVLCPIVFISALIGILQHIRVLPVIIRAIGFLLSKVNGMGKLESFNAVSSLILGQSENFIAYKDILGKISRNRMYTMAATAMSTVSMSIVGAYMTMLEPKYVVAALVLNMFSTFIVLSLINPYRVDASEENIQMSNLHEGQSFFEMLGEYILAGFKVAIIVAAMLIGFIALIAALNALFATVTGWFGYSISFQGILGYIFYPIAWVMGVPSSEALQVGSIMATKLVSN... | Function: Nucleoside transport protein that can transport adenosine, uridine, thymidine, cytidine and deoxycytidine (By similarity). Transport is driven by a proton motive force (By similarity).
Catalytic Activity: adenosine(in) + H(+)(in) = adenosine(out) + H(+)(out)
Location Topology: Multi-pass membrane protein
Sequ... |
O25792 | MIFSSLFSVVGMAVLFLIAWVFSSNKRAINYRTIVSAFVIQVALGALALYVPLGREMLQGLASGIQSVISYGYEGVRFLFGNLAPNAKGDQGIGGFVFAINVLAIIIFFASLISLLYYLKIMPLFINLIGGALQKCLGTSRAESMSAAANIFVAHTEAPLVIKPYLKSMSDSEIFAVMCVGMASVAGPVLAGYASMGIPLPYLIAASFMSAPGGLLFAKIIYPQNETISSHADVSIEKHVNAIEAIANGASTGLNLALHVGAMLLAFVGMLALINGLLGVVGGFLGMEHLSLGLILGTLLKPLAFMLGIPWSQAGIAGEI... | Function: Involved in purine nucleosides uptake. Could also be involved in uptake of nucleobases.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 43807
Sequence Length: 418
Subcellular Location: Cell inner membrane
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P42312 | MYFLLNLVGLIVIMAVVFLCSPQKKKIKWRPIITLIVLELLITWFMLGTKVGSWAIGKIGDFFTWLIACASDGIAFAFPSVMANETVDFFFSALLPIIFIVTFFDILTYFGILPWLIDKIGWVISKASRLPKLESFFSIQMMFLGNTEALAVIRQQLTVLSNNRLLTFGLMSMSSISGSIIGSYLSMVPATYVFTAIPLNCLNALIIANLLNPVHVPEDEDIIYTPPKEEKKDFFSTISNSMLVGMNMVIVILAMVIGYVALTSAVNGILGVFVHGLTIQTIFAYLFSPFAFLLGLPVHDAMYVAQLMGMKLATNEFVAM... | Function: Involved in the uptake of the purine ribonucleosides inosine and guanosine.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 43719
Sequence Length: 397
Subcellular Location: Cell membrane
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P0AFF4 | MNLKLQLKILSFLQFCLWGSWLTTLGSYMFVTLKFDGASIGAVYSSLGIAAVFMPALLGIVADKWLSAKWVYAICHTIGAITLFMAAQVTTPEAMFLVILINSFAYMPTLGLINTISYYRLQNAGMDIVTDFPPIRIWGTIGFIMAMWVVSLSGFELSHMQLYIGAALSAILVLFTLTLPHIPVAKQQANQSWTTLLGLDAFALFKNKRMAIFFIFSMLLGAELQITNMFGNTFLHSFDKDPMFASSFIVQHASIIMSISQISETLFILTIPFFLSRYGIKNVMMISIVAWILRFALFAYGDPTPFGTVLLVLSMIVYGC... | Function: Broad-specificity transporter of purine and pyrimidine nucleosides . Can transport adenosine, uridine, thymidine, cytidine, deoxycytidine, guanosine and inosine . Can also transport xanthosine, but with a very low affinity . Transport is driven by a proton motive force .
Catalytic Activity: adenosine(in) + H(... |
P05221 | MASTVSNTSKLEKPVSLIWGCELNEQDKTFEFKVEDDEEKCEHQLALRTVCLGDKAKDEFNIVEIVTQEEGAEKSVPIATLKPSILPMATMVGIELTPPVTFRLKAGSGPLYISGQHVAMEEDYSWAEEEDEGEAEGEEEEEEEEDQESPPKAVKRPAATKKAGQAKKKKLDKEDESSEEDSPTKKGKGAGRGRKPAAKK | Function: Acts as a chaperone for histones, such as histone H2A-H2B, and thus regulates the assembly of nucleosome cores . Involved in chromatin remodeling, especially during fertilization and early embryonic development (By similarity). May be involved in sperm chromatin decondensation during fertilization .
PTM: Acti... |
O05252 | MNKRKIGLAMSLVIAAGTILGACGNSEKSSGSGEGKNKFSVAMVTDVGGVDDKSFNQSAWEGIQAFGKENGLKKGKNGYDYLQSKSDADYTTNLNKLARENFDLIYGVGYLMEDSISEIADQRKNTNFAIIDAVVDKDNVASITFKEQEGSFLVGVAAALSSKSGKIGFVGGMESELIKKFEVGFRAGVQAVNPKAVVEVKYAGGFDKADVGKATAESMYKSGVDVIYHSAGATGTGVFTEAKNLKKEDPKRDVWVIGVDKDQYAEGQVEGTDDNVTLTSMVKKVDTVVEDVTKKASDGKFPGGETLTYGLDQDGVGISP... | Function: Part of an ABC transporter complex involved in the uptake of guanosine . Is probably the substrate-binding protein of the system . May be a nucleoside transporter of broad specificity but with various affinities for different substrates .
Location Topology: Lipid-anchor
Sequence Mass (Da): 38361
Sequence Leng... |
O05254 | MVKRLSHLLVPLIAIILGLAAGALIMLVSGYSVASGYSALWNGIFGEIYYVGETIRQITPYILSGLAVAFAFRTGLFNIGVEGQLLVGWTAAVWVGTAFDGPAYIHLPLALITAAAAGGLWGFIPGILKARFYVHEVIVTIMMNYIALHMTNYIISNVLTDHQDKTGKIHESASLRSPFLEQITDYSRLHLGIIVALLAAVIMWFIINKSTKGFELRAVGFNQHASQYAGMSVRKNIMTSMLISGAFAGLAGAMEGLGTFEYAAVKGAFTGVGFDGIAVALLGGNTAVGVVLAACLLGGLKIGALNMPIESGVPSEVVDI... | Function: Part of an ABC transporter complex involved in the uptake of guanosine . Responsible for the translocation of the substrate across the membrane (Probable). May be a nucleoside transporter of broad specificity but with various affinities for different substrates .
Location Topology: Multi-pass membrane protein... |
O05255 | MDIVQILSIIVPATLVYAAPLILTALGGVFSERSGVVNIGLEGLMIIGAFTSVLFNLFFGQELGAAAPWLSLLAAMAAGALFSLIHAAAAISFRADQTVSGVAINMLALGATLFIVKLIYGKAQTDKIPEPFYKTKIPGLGDIPVLGKIFFSDVYYTSILAIALAFISWFILFKTPFGLRIRSVGEHPMAADTMGINVYKMRYIGVMISGLFGGLGGGVYASTIALDFTHSTISGQGFIALAALVFGKWHPIGALGAALFFGFAQSLSIIGSLLPLFKDIPNVYMLMAPYILTILALTGFIGRADAPKANGVPYIKGKR | Function: Part of an ABC transporter complex involved in the uptake of guanosine . Responsible for the translocation of the substrate across the membrane (Probable). May be a nucleoside transporter of broad specificity but with various affinities for different substrates .
Location Topology: Multi-pass membrane protein... |
Q12255 | MKRFNVSYVEVIKNGETISSCFQPFQKNENYGTITSANEQITPVIFHNLIMDMVLPKVVPIKGNKVTKMSMNLIDGFDCFYSTDDHDPKTVYVCFTLVDMPKILPIRILSGLQEYESNATNELLSSHVGQILDSFHEELVEYRNQTLNSSGNGQSSNGNGQNTISDIGDATEDQIKDVIQIMNDNIDKFLERQERVSLLVDKTSQLNSSSNKFRRKAVNIKEIMWWQKVKNITLLTFTIILFVSAAFMFFYLW | Function: Vacuolar v-SNARE required for docking. Only involved in homotypic vacuole fusion. Required for Ca(2+) efflux from the vacuolar lumen, a required signal for subsequent membrane fusion events, by inhibiting vacuolar Ca(2+)-ATPase PMC1 and promoting Ca(2+) release when forming trans-SNARE assemblies during the d... |
P35898 | MKQQNDTQILQFLLLGLSENTELQPLIYWLFFSMYLVTVWGNLIIILATVLDFRLHTAMYFFLCNLSFVDICLISTTIPKMLANVHLNHKAITYEGCIMQIYFFTLFVGLDNFLLAVMAYDRFVAICHPLRYTSIMTPHLCMSLVLVSWIASVLNSSLQSFLVLQLSFCTEVEIPHFFCELSMLVHLACSDTFLSDMAMNVLAALLGGGCLVGILYSYSKIVSSIQAISSAEGKYKAFSTCVSHLSVVSLFYCTLLGVYLSSAVTQNSHSTAATSLMYTVVTPMLNPFIYSLRNDNIKRALKNFVKKKLEK | Function: Possible taste receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35013
Sequence Length: 311
Subcellular Location: Cell membrane
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P58181 | MKRQNQSCVVEFILLGFSNFPELQVQLFGVFLVIYVVTLMGNAIITVIISLNQSLHVPMYLFLLNLSVVEVSFSAVITPEMLVVLSTEKTMISFVGCFAQMYFILLFGGTECFLLGAMAYDRFAAICHPLNYPVIMNRGVFMKLVIFSWISGIMVATVQTTWVFSFPFCGPNEINHLFCETPPVLELVCADTFLFEIYAFTGTILIVMVPFLLILLSYIRVLFAILKMPSTTGRQKAFSTCASHLTSVTLFYGTANMTYLQPKSGYSPETKKLISLAYTLLTPLLNPLIYSLRNSEMKRTLIKLWRRKVILHTF | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35535
Sequence Length: 314
Subcellular Location: Cell membrane
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Q9H209 | MMWENWTIVSEFVLVSFSALSTELQALLFLLFLTIYLVTLMGNVLIILVTIADSALQSPMYFFLRNLSFLEIGFNLVIVPKMLGTLIIQDTTISFLGCATQMYFFFFFGAAECCLLATMAYDRYVAICDPLHYPVIMGHISCAQLAAASWFSGFSVATVQTTWIFSFPFCGPNRVNHFFCDSPPVIALVCADTSVFELEALTATVLFILFPFLLILGSYVRILSTIFRMPSAEGKHQAFSTCSAHLLVVSLFYSTAILTYFRPQSSASSESKKLLSLSSTVVTPMLNPIIYSSRNKEVKAALKRLIHRTLGSQKL | Function: Odorant receptor (Potential). May be involved in taste perception.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35117
Sequence Length: 315
Subcellular Location: Cell membrane
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Q9H207 | MAIGNWTEISEFILMSFSSLPTEIQSLLFLTFLTIYLVTLKGNSLIILVTLADPMLHSPMYFFLRNLSFLEIGFNLVIVPKMLGTLLAQDTTISFLGCATQMYFFFFFGVAECFLLATMAYDRYVAICSPLHYPVIMNQRTRAKLAAASWFPGFPVATVQTTWLFSFPFCGTNKVNHFFCDSPPVLKLVCADTALFEIYAIVGTILVVMIPCLLILCSYTRIAAAILKIPSAKGKHKAFSTCSSHLLVVSLFYISSSLTYFWPKSNNSPESKKLLSLSYTVVTPMLNPIIYSLRNSEVKNALSRTFHKVLALRNCIP | Function: Odorant receptor (Potential). May be involved in taste perception.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35519
Sequence Length: 317
Subcellular Location: Cell membrane
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Q8NH74 | MERQNQSCVVEFILLGFSNYPELQGQLFVAFLVIYLVTLIGNAIIIVIVSLDQSLHVPMYLFLLNLSVVDLSFSAVIMPEMLVVLSTEKTTISFGGCFAQMYFILLFGGAECFLLGAMAYDRFAAICHPLNYQMIMNKGVFMKLIIFSWALGFMLGTVQTSWVSSFPFCGLNEINHISCETPAVLELACADTFLFEIYAFTGTFLIILVPFLLILLSYIRVLFAILKMPSTTGRQKAFSTCAAHLTSVTLFYGTASMTYLQPKSGYSPETKKVMSLSYSLLTPLLNLLIYSLRNSEMKRALMKLWRRRVVLHTI | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35318
Sequence Length: 314
Subcellular Location: Cell membrane
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Q8NGE5 | MICENHTRVTEFILLGFTNNPEMQVSLFIFFLAIYTVTLLGNFLIVTVTSVDLALQTPMYFFLQNLSLLEVCFTLVMVPKMLVDLVSPRKIISFVGCGTQMYFFFFFGSSECFLLSMMAYDRFVAICNPLHYSVIMNRSLCLWMAIGSWMSGVPVSMLQTAWMMALPFCGPNAVDHFFCDGPPVLKLVTVDTTMYEMQALASTLLFIMFPFCLILVSYTRIIITILRMSSATGRQKAFSTCSSHLIVVSLFYGTASLTYLRPKSNQSPESKKLVSLSYTVITPMLNPIIYGLRNNEVKGAVKRTITQKVLQKLDVF | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35695
Sequence Length: 316
Subcellular Location: Cell membrane
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Q8NH08 | MDSPSNATVPCGFLLQGFSEFPHLRPVLFLLLLGVHLATLGGNLLILVAVASMPSRQPMLLFLCQLSAIELCYTLVVVPRSLVDLSTPGHRRGSPISFLSCAFQMQMFVALGGAECFLLAAMAYDRYVAICHPLRYAAVVTPGLCARLALACCLRGLAVSVGLTVAIFHLPFCGSRLLLHFFCDITALLHLACTRSYADELPLLGACLVLLLLPSVLILASYGAIAAALRRLRCPKGRGKAASTCALHLAVTFLHYGCATFMYVRPRASYSPRLDRTLALVYTNVTPLLCPLIYSLRNREITAALSRVLGRRRPGQAPGG... | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35157
Sequence Length: 325
Subcellular Location: Cell membrane
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Q8NGE0 | MLRNGSIVTEFILVGFQQSSTSTRALLFALFLALYSLTMAMNGLIIFITSWTDPKLNSPMYFFLGHLSLLDVCFITTTIPQMLIHLVVRDHIVSFVCCMTQMYFVFCVGVAECILLAFMAYDRYVAICYPLNYVPIISQKVCVRLVGTAWFFGLINGIFLEYISFREPFRRDNHIESFFCEAPIVIGLSCGDPQFSLWAIFADAIVVILSPMVLTVTSYVHILATILSKASSSGRGKTFSTCASHLTVVIFLYTSAMFSYMNPHSTHGPDKDKPFSLLYTIITPMCNPIIYSFRNKEIKEAMVRALGRTRLAQPQSV | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35698
Sequence Length: 317
Subcellular Location: Cell membrane
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Q8NH19 | MEFVLLGFSDIPNLHWMLFSIFLLMYLMILMCNGIIILLIKIHPALQTPMYFFLSNFSLLEICYVTIIIPRMLMDIWTQKGNISLFACATQMCFFLMLGGTECLLLTVMAYDRYVAICKPLQYPLVMNHKVCIQLIIASWTITIPVVIGETCQIFLLPFCGTNTINHFFCDIPPILKLACGNIFVNEITVHVVAVVFITVPFLLIVVSYGKIISNILKLSSARGKAKAFSTCSSHLIVVILFFGAGTITYLQPKPHQFQRMGKLISLFYTILIPTLNPIIYTLRNKDIMVALRKLLAKLLT | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 34105
Sequence Length: 301
Subcellular Location: Cell membrane
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Q96KK4 | MSANTSMVTEFLLLGFSHLADLQGLLFSVFLTIYLLTVAGNFLIVVLVSTDAALQSPMYFFLRTLSALEIGYTSVTVPLLLHHLLTGRRHISRSGCALQMFFFLFFGATECCLLAAMAYDRYAAICEPLRYPLLLSHRVCLQLAGSAWACGVLVGLGHTPFIFSLPFCGPNTIPQFFCEIQPVLQLVCGDTSLNELQIILATALLILCPFGLILGSYGRILVTIFRIPSVAGRRKAFSTCSSHLIMVSLFYGTALFIYIRPKASYDPATDPLVSLFYAVVTPILNPIIYSLRNTEVKAALKRTIQKTVPMEI | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 34384
Sequence Length: 312
Subcellular Location: Cell membrane
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P0C832 | KSTSCMEAGSYCGSTTRICCGYCAYSASKNVCDYPSN | Function: Omega-conotoxins act at presynaptic membranes, they bind and block voltage-gated calcium channels (Cav). This toxin blocks N-, P- and Q-type calcium channels (By similarity).
Sequence Mass (Da): 3912
Sequence Length: 37
Domain: The presence of a 'disulfide through disulfide knot' structurally defines this pro... |
P0CY66 | AEDSRGTQLHRALRKATKLSESTRCKRKGSSCRRTSYDCCTGSCRNGKCG | Function: Omega-conotoxins act at presynaptic membranes, they bind and block voltage-gated calcium channels (Cav). This toxin selectively and potently inhibits depolarization-activated rat Cav2.2/CACNA1B currents (IC(50)=89 nM), when coexpressed with alpha-2/delta-1 (CACNA2D1) and beta-3 (CACNB3) subunits. In vivo, is ... |
Q9BPA9 | MEKLTILLLVAAVLTSTQALIQGGGDERQKAKINFLSRSDRDCRGYDAPCSSGAPCCDWWTCSARTNRCF | PTM: Contains 3 disulfide bonds.
Sequence Mass (Da): 7701
Sequence Length: 70
Domain: The presence of a 'disulfide through disulfide knot' structurally defines this protein as a knottin.
Subcellular Location: Secreted
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P56711 | MEKLTILLLVAAVLMSTQAQNQEQRQQAKINFLSKRKPSAERWRRDCTSWFGRCTVNSECCSNSCDQTYCELYAFPSFGA | Function: Gamma-conotoxins may act on voltage-gated non-specific cation pacemaker channels (HCN). Triggers depolarization and firing of action potential bursts in the caudodorsal neurons of lymnaea. This effect is due to activation or enhancement of a slow inward cation current that may underlie endogenous bursting act... |
P0DOW6 | CDAPTHYCTNYWECCSGYCEHSHCW | Function: Micromolar concentrations of PiVIIA increase the magnitude of the macroscopic calcium current in DRG neurons from rat. An increase, even modest of the calcium current, may have a significant impact in the excitability and electrical activity of neurons, and may set up PiVIIA as a member of the pharmacological... |
P0C1M8 | APAKRWFGHEECTYWLGPCEVDDTCCSASCESKFCGLW | Function: Induces a sleep-like state in mice.
Sequence Mass (Da): 4317
Sequence Length: 38
Domain: The presence of a 'disulfide through disulfide knot' structurally defines this protein as a knottin.
Subcellular Location: Secreted
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P24160 | MEKLTILLLVAAVLMSTQAMFQGDGEKSRKAEINFSETRKLARNKQKRCGGYSTYCEVDSECCSDNCVRSYCTLFG | Function: Gamma-conotoxins may act on voltage-gated non-specific cation pacemaker channels (HCN) (By similarity). Potent neurotoxin.
Sequence Mass (Da): 8529
Sequence Length: 76
Domain: The presence of a 'disulfide through disulfide knot' structurally defines this protein as a knottin.
Subcellular Location: Secreted
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Q8NGT7 | MESNQTWITEVILLGFQVDPALELFLFGFFLLFYSLTLMGNGIILGLIYLDSRLHTPMYVFLSHLAIVDMSYASSTVPKMLANLVMHKKVISFAPCILQTFLYLAFAITECLILVMMCYDRYVAICHPLQYTLIMNWRVCTVLASTCWIFSFLLALVHITLILRLPFCGPQKINHFFCQIMSVFKLACADTRLNQVVLFAGSAFILVGPLCLVLVSYLHILVAILRIQSGEGRRKAFSTCSSHLCVVGLFFGSAIVMYMAPKSSHSQERRKILSLFYSLFNPILNPLIYSLRNAEVKGALKRVLWKQRSM | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35213
Sequence Length: 310
Subcellular Location: Cell membrane
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Q96R47 | MEGNKTWITDITLPRFQVGPALEILLCGLFSAFYTLTLLGNGVIFGIICLDCKLHTPMYFFLSHLAIVDISYASNYVPKMLTNLMNQESTISFFPCIMQTFLYLAFAHVECLILVVMSYDRYADICHPLRYNSLMSWRVCTVLAVASWVFSFLLALVPLVLILSLPFCGPHEINHFFCEILSVLKLACADTWLNQVVIFAACVFILVGPLCLVLVSYLRILAAILRIQSGEGRRKAFSTCSSHLCVVGLFFGSAIVTYMAPKSRHPEEQQKVLSLFYSLFNPMLNPLIYSLRNAEVKGALRRALRKERLT | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 34993
Sequence Length: 310
Subcellular Location: Cell membrane
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Q8NHA4 | MWQKNQTSLADFILEGLFDDSLTHLFLFSLTMVVFLIAVSGNTLTILLICIDPQLHTPMYFLLSQLSLMDLMHVSTIILKMATNYLSGKKSISFVGCATQHFLYLCLGGAECFLLAVMSYDRYVAICHPLRYAVLMNKKVGLMMAVMSWLGASVNSLIHMAILMHFPFCGPRKVYHFYCEFPAVVKLVCGDITVYETTVYISSILLLLPIFLISTSYVFILQSVIQMRSSGSKRNAFATCGSHLTVVSLWFGACIFSYMRPRSQCTLLQNKVGSVFYSIITPTLNSLIYTLRNKDVAKALRRVLRRDVITQCIQRLQLWL... | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 36588
Sequence Length: 323
Subcellular Location: Cell membrane
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Q9H205 | MELWNFTLGSGFILVGILNDSGSPELLCATITILYLLALISNGLLLLAITMEARLHMPMYLLLGQLSLMDLLFTSVVTPKALADFLRRENTISFGGCALQMFLALTMGGAEDLLLAFMAYDRYVAICHPLTYMTLMSSRACWLMVATSWILASLSALIYTVYTMHYPFCRAQEIRHLLCEIPHLLKVACADTSRYELMVYVMGVTFLIPSLAAILASYTQILLTVLHMPSNEGRKKALVTCSSHLTVVGMFYGAATFMYVLPSSFHSTRQDNIISVFYTIVTPALNPLIYSLRNKEVMRALRRVLGKYMLPAHSTL | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35270
Sequence Length: 316
Subcellular Location: Cell membrane
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A6NM03 | MELRNSTLGSGFILVGILNDSGSPELLYATFTILYMLALTSNGLLLLAITIEARLHMPMYLLLGQLSLMDLLFTSVVTPKALADFLRRENTISFGGCALQMFLALTMGSAEDLLLAFMAYDRYVAICHPLKYMTLMSPRVCWIMVATSWILASLIAIGHTMYTMHLPFCVSWEIRHLLCEIPPLLKLACADTSRYELIIYVTGVTFLLLPISAIVASYTLVLFTVLRMPSNEGRKKALVTCSSHLIVVGMFYGAATFMYVLPSSFHSPKQDNIISVFYTIVTPALNPLIYSLRNKEVMRALRRVLGKYILLAHSTL | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 35270
Sequence Length: 316
Subcellular Location: Cell membrane
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Q8NGZ0 | MGHQNHTFSSDFILLGLFSSSPTSVVFFLVLFVIFIMSVTENTLMILLIRSDSRLHTPMYFLLSHLSLMDILHVSNIVPKMVTNFLSGSRTISFAGCGFQVFLSLTLLGGECLLLAAMSCDRYVAICHPLRYPILMKEYASALMAGGSWLIGVFNSTVHTAYALQFPFCGSRAIDHFFCEVPAMLKLSCADTTRYERGVCVSAVIFLLIPFSLISASYGQIILTVLQMKSSEARKKSFSTCSFHMIVVTMYYGPFIFTYMRPKSYHTPGQDKFLAIFYTILTPTLNPFIYSFRNKDVLAVMKNMLKSNFLHKKMNRKIPE... | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 37063
Sequence Length: 328
Subcellular Location: Cell membrane
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Q8NG84 | MNISDVISFDILVSAMKTGNQSFGTDFLLVGLFQYGWINSLLFVVIATLFTVALTGNIMLIHLIRLNTRLHTPMYFLLSQLSIVDLMYISTTVPKMAVSFLSQSKTIRFLGCEIQTYVFLALGGTEALLLGFMSYDRYVAICHPLHYPMLMSKKICCLMVACAWASGSINAFIHTLYVFQLPFCRSRLINHFFCEVPALLSLVCQDTSQYEYTVLLSGLIILLLPFLAILASYARVLIVVFQMSSGKGQAKAVSTCSSHLIVASLFYATTLFTYTRPHSLRSPSRDKAVAVFYTIVTPLLNPFIYSLRNKEVTGAVRRLL... | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 37763
Sequence Length: 335
Subcellular Location: Cell membrane
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Q8NGE2 | MKNKTVLTEFILLGLTDVPELQVAVFTFLFLAYLLSILGNLTILILTLLDSHLQTPMYFFLRNFSFLEISFTNIFIPRVLISITTGNKSISFAGCFTQYFFAMFLGATEFYLLAAMSYDRYVAICKPLHYTTIMSSRICIQLIFCSWLGGLMAIIPTITLMSQQDFCASNRLNHYFCDYEPLLELSCSDTSLIEKVVFLVASVTLVVTLVLVILSYAFIIKTILKLPSAQQRTKAFSTCSSHMIVISLSYGSCMFMYINPSAKEGDTFNKGVALLITSVAPLLNPFIYTLRNQQVKQPFKDMVKKLLNL | Function: Odorant receptor.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 34902
Sequence Length: 309
Subcellular Location: Cell membrane
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A6NND4 | MDATACNESVDGSPVFYLLGIPSLPETFFLPVFFIFLLFYLLILMGNALILVAVVAEPSLHKPMYFFLINLSTLDILFTTTTVPKMLSLFLLGDRFLSFSSCLLQMYLFQSFTCSEAFILVVMAYDRYVAICHPLHYPVLMNPQTNATLAASAWLTALLLPIPAVVRTSQMAYNSIAYIYHCFCDHLAVVQASCSDTTPQTLMGFCIAMVVSFLPLLLVLLSYVHILASVLRISSLEGRAKAFSTCSSHLLVVGTYYSSIAIAYVAYRADLPLDFHIMGNVVYAILTPILNPLIYTLRNRDVKAAITKIMSQDPGCDRSI | Function: Olfactory receptor . Activated by the synthetic sandalwood odorant sandalore . Endogenous ligand is unknown (Probable). The activity of this receptor is probably mediated by G proteins which induce elevation of intracellular Ca(2+), a cAMP-dependent pathway and phosphorylation of MAPK1/ERK2, MAPK3/ERK1 and p3... |
P58651 | MNEAVLLGEGFTLMFLGMGFVLSFLFLLIFAIRGMSAVITRFFPEPVAAPAPRAVPVVDDFTRLKPVIAAAIHHHRHHV | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 8726
Sequence Length: 79
Subcellular Location: Cell membrane
EC: 7.2.4.2
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Q9KUH2 | MTHIGSLLLDAATLMVTGMAVVFLFLTLLVYLVQFMSRVIPQEVPEAAATPKKSQKVQPVTDSVSPQVVAAIAAAVHQHRSATAKQ | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 9170
Sequence Length: 86
Subcellular Location: Cell membrane
EC: 7.2.4.2
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Q03032 | MTNAALLLGEGFTLMFLGMGFVLAFLFLLIFAIRGMSAAVNRFFPEPAPAPKAAPAAAAPVVDDFTRLKPVIAAAIHHHHRLNA | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 8956
Sequence Length: 84
Subcellular Location: Cell membrane
EC: 7.2.4.2
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Q9KTU4 | MQSTSLFLEGINLLTLGMGFVFIFLIFLVYATRAMSQLIVRFAPPEVPAKTTNKKASANKAKANPNQNQGELLAVLTAAVHHHKTQQKLS | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 9867
Sequence Length: 90
Subcellular Location: Cell membrane
EC: 7.2.4.2
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P58650 | MNSSVLLGEGFTLMFLGMGFVLAFLFLLIFAIRGMSAAVNRFFPEPVPVPKAAPAAAPADDFARLKPVIAAAIHHHRRLNP | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 8745
Sequence Length: 81
Subcellular Location: Cell membrane
EC: 7.2.4.2
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B7LVP2 | MNAAQLLGEGFTLMFLGMGFVLGFLCLLILAIKSMSVAVNRFFPEPVAAPKPAATTAAPADDFSRLKPVIAAAIHHHRRLNS | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 8763
Sequence Length: 82
Subcellular Location: Cell membrane
EC: 7.2.4.2
|
Q9RFA0 | MTNAELFGEGINLMIAGMGFVMFFLIILIYAISVISRLINKYFPDPTQTPPAQPIPAVIPPTDLERLRPVIVAAIAHHRRQQRSN | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 9513
Sequence Length: 85
Subcellular Location: Cell membrane
EC: 7.2.4.2
|
P13155 | MTDNAVLLGEGFTLMCLGMGFVLVFLLLLIFAIRGMSLAVNRLFPEPPAAPKPAPAAVAPADDFARLKPAIVAAIHHHRRLHP | Function: Catalyzes the decarboxylation of oxaloacetate coupled to Na(+) translocation.
Catalytic Activity: H(+) + 2 Na(+)(in) + oxaloacetate = CO2 + 2 Na(+)(out) + pyruvate
Location Topology: Single-pass membrane protein
Sequence Mass (Da): 8909
Sequence Length: 83
Subcellular Location: Cell membrane
EC: 7.2.4.2
|
Q18040 | MLSSLRRVVPSLPRGSRSLTSQQIFDREKKFGCHNYKPLPVALSKGEGCFVWDVEGKKYFDFLAAYSAVNQGHCHPKLLKVVQEQASTLTLTSRAFYNNVLGEYEEYVTKLFKYDKVLPMNTGVEACESAVKLARRWAYDVKGVKDNEAVVVFAENNFWGRSIAAISASTDPDSFARFGPFVPGFKTVPYNNLKAVEDAIKDKNVAAFMVEPIQGEAGVVLPDPGYLKGVSDLCKKYNVLFITDEVQSGLGRSGKLLAHYHDNVRPDIVVLGKALSGGFYPVSAVLCDDNVMMNIKPGEHGSTYGGNPLACKVAIAALEI... | Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 46454
Sequence Length: 422
Pathway: Amino-acid biosynthesis; L-proline biosynthesis; L-glutamate 5-semialdehyde from L-ornithine: step 1/1.
Subcellular Location: Mitochondrion matrix
EC: 2.6.1.1... |
Q54JP5 | MDPISSQIQECTSKELIEMESEFAAHTYHPIPVVFKKASGVHVWDVEEKQYFDFLSAYSAVNQGHSHPKIVSALITQAQKCALSSRAFYNEVFPQYAKYITEYFGYEMVLPMNTGAEAVETSIKLARRWGYVKKGIAEDQAIVISCKGCFHGRTIGVISMSDDPSSYNKYGPLMNGIIKIDYNSTQQLEEVLSQHADRVCGFIVEPIQGEAGVVVPDEGYLKKCYELCKKYNVLLVADEIQTGLCRTGRMLCSDWDGIKPDLVLLGKAISGGLLPISAVLGGKDVMLTIKPGEHGSTYGGSPLASAVAMAALDVLRDENL... | Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 45752
Sequence Length: 416
Pathway: Amino-acid biosynthesis; L-proline biosynthesis; L-glutamate 5-semialdehyde from L-ornithine: step 1/1.
Subcellular Location: Cytoplasm
EC: 2.6.1.13
|
Q9VW26 | MFAKLSARGIATRMSFLAQKTASQETTAAAGSRSELVYARENKYGAHNYHPLPVALTKGEGVFVWDVEGKRYFDYLSAYSAVNQGHCHPKIVAALTAQASKLALTSRAFYSDVLGEYEEYVTKLFGFDKVLPMNTGVEGGETACKLARKWGYLEKKIPANQAKIIFARNNFWGRTLSAVSASNDPSSYEGFGPFMPGFELIEYDNVSALEESLKDPNVCAFMVEPIQGEAGVVVPSDGYLKKVRELCTKYNVLWIADEVQTGLARTGKLLAVDYEQVQPDILILGKALSGGMYPVSAVLCNDQVMLCIKPGEHGSTYGGN... | Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 47312
Sequence Length: 431
Pathway: Amino-acid biosynthesis; L-proline biosynthesis; L-glutamate 5-semialdehyde from L-ornithine: step 1/1.
Subcellular Location: Mitochondrion matrix
EC: 2.6.1.1... |
Q92413 | MTSNGTNGSATAYHASSTQEAIQAENDFAAHNYHPLPVVFARAQGTSVWDPEGRHYLDFLSAYSAVNQGHCHPKLVAALVDQASRLTLSSRAFYNDVFPKFAEMVTKYFGFDMVLPMNTGAEAVETGIKIARKWGYKVKGIPENEAIILSAENNFHGRTMAAISLSSDPESRENYGPYVPNIGCTIPGTEKPITYNDKAALREAFEKAGSNLAAFLVEPIQGEAGIIVPDDDYLQLARSLCDQHNVLLICDEIQTGIARTGKLLCHEWSGIKPDMVLLGKAISGGMYPVSCVLGRKDVMLTVEPGTHGSTYGGNPLACAV... | Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 49216
Sequence Length: 454
Pathway: Amino-acid biosynthesis; L-proline biosynthesis; L-glutamate 5-semialdehyde from L-ornithine: step 1/1.
Subcellular Location: Cytoplasm
EC: 2.6.1.13
|
C4L2E7 | MSKTHDVIELTEKFGAHNYHPLPIVISEAKGIWVTDPEGNRYMDMLSAYSAVNQGHCHPKIIQALKDQADKITLTSRAFYNDQLGRFYDKVVTLTKKQMVLPMNTGAEAVETAVKTARRWAYDVKGIPGQAEIIVCSGNFHGRTMAAVSMSTEAEYQRGFGPLLPGFKVVPYGDIDAFEAAITENTAAFIVEPIQGEAGIIIPPAGYLKRASELCKEHNVLFVADEIQSGLGRSGKWFAIEWEDVTPDMYILGKALGGGVFPISCVAADQEILSVFNPGSHGSTFGGNPLASAVSVAALEVLEEENLPERSLELGTYFMD... | Function: Catalyzes the interconversion of ornithine to glutamate semialdehyde.
Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 43690
Sequence Length: 400
Pathway: Amino-acid biosynthesis; L-proline biosynthesis; L-glutamate 5-semialdehyde fr... |
P04181 | MFSKLAHLQRFAVLSRGVHSSVASATSVATKKTVQGPPTSDDIFEREYKYGAHNYHPLPVALERGKGIYLWDVEGRKYFDFLSSYSAVNQGHCHPKIVNALKSQVDKLTLTSRAFYNNVLGEYEEYITKLFNYHKVLPMNTGVEAGETACKLARKWGYTVKGIQKYKAKIVFAAGNFWGRTLSAISSSTDPTSYDGFGPFMPGFDIIPYNDLPALERALQDPNVAAFMVEPIQGEAGVVVPDPGYLMGVRELCTRHQVLFIADEIQTGLARTGRWLAVDYENVRPDIVLLGKALSGGLYPVSAVLCDDDIMLTIKPGEHG... | Function: Catalyzes the reversible interconversion of L-ornithine and 2-oxoglutarate to L-glutamate semialdehyde and L-glutamate.
Catalytic Activity: 2-oxoglutarate + L-ornithine = L-glutamate + L-glutamate 5-semialdehyde
Sequence Mass (Da): 48535
Sequence Length: 439
Pathway: Amino-acid biosynthesis; L-proline biosynt... |
P29758 | MLSKLASLQTIAALRRGVHTSVASATSVATKKTEQGPPSSEYIFERESKYGAHNYHPLPVALERGKGIYMWDVEGRQYFDFLSAYGAVSQGHCHPKIIDAMKSQVDKLTLTSRAFYNNVLGEYEEYITKLFNYNKVLPMNTGVEAGETACKLARRWGYTVKGIQKYKAKIVFADGNFWGRTLSAISSSTDPTSYDGFGPFMPGFETIPYNDLPALERALQDPNVAAFMVEPIQGEAGVIVPDPGYLTGVRELCTRHQVLFIADEIQTGLARTGRWLAVDHENVRPDMVLLGKALSGGLYPVSAVLCDDEIMLTIKPGEHG... | Function: Catalyzes the reversible interconversion of L-ornithine and 2-oxoglutarate to L-glutamate semialdehyde and L-glutamate.
Catalytic Activity: 2-oxoglutarate + L-ornithine = L-glutamate + L-glutamate 5-semialdehyde
Sequence Mass (Da): 48355
Sequence Length: 439
Pathway: Amino-acid biosynthesis; L-proline biosynt... |
Q10G56 | MAAALARRGGGGLARALARGRGMCSATAAERAAGAALTSEELMRMERERSAHNYHPIPVVFSKGEGSHILDPEGNKYIDFLSAYSAVNQGHCHPKVLRALKEQAERLTLSSRAFYNDKFPIFAEYLTSMFGYEMMLPMNTGAEGVETAIKLVRKWGYEKKKIPKNEALIVSCCGCFHGRTLGVISMSCDNDATRGFGPLVPGHLKVDFGDTDGLEKIFKDHGERICGFLFEPIQGEAGVIIPPDGYLKAVRDLCSRHNILMIADEIQTGIARTGKMLACDWENIRPDVVILGKALGAGVVPVSAVLADKDIMLCIKPGEH... | Function: Confers drought and oxidative stress tolerance mainly through enhancing ROS-scavenging capacity and Pro pre-accumulation.
Catalytic Activity: a 2-oxocarboxylate + L-ornithine = an L-alpha-amino acid + L-glutamate 5-semialdehyde
Sequence Mass (Da): 51442
Sequence Length: 473
Pathway: Amino-acid biosynthesis; L... |
Q6LFH8 | MDFVKELKSSQDYMNNELTYGAHNYDPIPVVLKRGKGVFVYDIEDRRYYDFLSAYSSVNQGHCHPDILNAMINQAKKLTICSRAFFSDSLGVCERYLTNLFGYDKVLMMNTGAEASETAYKLCRKWGYEVKKIPENSAKIIVCNNNFSGRTLGCVSASTDKKCKNNFGPFVPNFLKVPYDDLEALEKELQDPNVCAFIVEPVQGEAGVIVPSDSYFPGVASLCKKYNVLFVADEVQTGLGRTGKLLCTHHYGVKPDVILLGKALSGGHYPISAILANDDVMLVLKPGEHGSTYGGNPLAAAICVEALKVLINEKLCENAD... | Function: The enzyme has a very narrow substrate specificity and can only catalyze the transamination of alpha-ketoglutarate with ornithine or N-acetylornithine and, to a lesser extent, of glutamate-5-semialdehyde with glutamate and alanine.
PTM: The disulfide bond between Cys-154 and Cys-163 is reduced by TRX1 which i... |
P04182 | MLSKLASLQTVAALRRGLRTSVASATSVATKKTEQGPPSSEYIFERESKYGAHNYHPLPVALERGKGIYMWDVEGRQYFDFLSAYGAVSQGHCHPKIIEAMKSQVDKLTLTSRAFYNNVLGEYEEYITKLFNYNKVLPMNTGVEAGETACKLARRWGYTVKGIQKYKAKIVFAVGNFWGRTLSAVSSSTDPTSYDGFGPFMPGFETIPYNDLPALERALQDPNVAAFMVEPIQGEAGVIVPDPGYLTGVRELCTRHQVLFIADEIQTGLARTGRWLAVDHENVRPDIVLLGKALSGGLYPVSAVLCDDDIMLTIKPGEHG... | Function: Catalyzes the reversible interconversion of L-ornithine and 2-oxoglutarate to L-glutamate semialdehyde and L-glutamate.
Catalytic Activity: 2-oxoglutarate + L-ornithine = L-glutamate + L-glutamate 5-semialdehyde
Sequence Mass (Da): 48333
Sequence Length: 439
Pathway: Amino-acid biosynthesis; L-proline biosynt... |
A4XJS8 | MFVDIAKIYVKAGDGGDGIVAFRREKYVPAGGPAGGDGGKGGDVIFVADRELNTLLDFKYKRHYKAQNGERGGPNNMHGKDGEDLIIKVPVGTVIKDAETGEIIADLSREGDRAIVAHGGRGGRGNAHFATATRQVPRFAEVGEKGDELWVILELKVLADVGLIGYPNVGKSTFLSVATNARPEIANYPFTTKYPNLGIVYISEGESFVLADIPGLIEGASEGAGLGHQFLRHVERTKVLIHIVDVSGSEGREPVEDFIKINEELKKYSPELAQKPQIVAANKMDLPDAQAYFELFKEEIEKMGYEVYPISAATGMGIRE... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
A0RR37 | MFVDSASFSVSSGKGGPGCASFRREKHVPLGGPDGGDGGNGGDVYFIVDNNTHTLANYKGKRAMKAANGVPGLPRNMTGKKGDNLELIVPPGTAVYDADSNELLLDLISEGQKELFLSGGKGGLGNVHFKTSVNQAPTKAQPGLPGETRNIRLELKLIADVGLVGFPNVGKSTLISSISNAKPQIANYEFTTLTPKLGLVEVDEFSGFIMADIPGIIEGASDGKGLGIQFLKHIERTKVLLYMIDLANYRSLKEQFETLKSEVLKFSPNLAKRDFAIALTRLDAAVDADEKIEEFLNEFKFDKKQDIYEYDRQKPFFVLP... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
Q1MQQ1 | MRFVDEVTISVSAGKGGNGCVSFRREKFIPKGGPNGGDGGDGGNIIFKADSRLLTLYDFRVQRHYRAQNGEGGKGSQRHGKKGEDLILHLPVGTIIFEQLLDKEYFLVDLDRPGVEFLIARGGRGGKGNEHFKSSTMRTPRFAQKGEMGEEKYLRLELKILADAGIIGLPNAGKSTLISKLSAAQPKIAAYPFTTLNPNLGVMIDNLDPDKRLVLADIPGLIEGACKGQGLGHQFLKHIERTRFLIHVLSSEDIDEDNPWLGFDIVNEELKEFDHTLMQRTQLLVVNKIDVLQPEKLSHIKQVAESSGKIIYFISAETGE... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
Q7TUR3 | MQFIDQARITVRAGRGGDGIMAFRREKYVPAGGPSGGDGGNGGNVVLEADGNLQTLLDFKYKRLFPAPDGRRGGPNRCTGASGKDLIIKVPCGTEVRHLYTGILLGDLTRSEDLLVVAFGGRGGLGNAHYLSNRNRAPEKFTEGRDGEEWFLQLELKLLAEVGIIGLPNAGKSTLISVLSAARPKIADYPFTTLVPNLGVVRRPSGDGTVFADIPGLIAGAAQGAGLGHDFLRHIERTRLLIHVLDGGAEDPVEDLLVVEKELVAYGHDLVERPRLLVLNKQELLDEQHQDQLVDALQAASGRSLILISAAMGLGLEGLL... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
Q46HF4 | MQFIDQAIIDVKAGSGGDGISAFRREKYVPAGGPAGGDGGQGGNVVLEADDNLQTLLDFKFQKLISAENGQRGGPNKCTGASGKDTVLKVPCGTEVRHLSTNIILGDLTNKGQQLIVAFGGKGGFGNARYLSNSNRAPEKFTEGKVGEEWSLQLELKLLAEVGIIGLPNAGKSTLISVLSSARPKIADYPFTTLIPNLGVVRRPSGDGTVFADIPGLISGASKGIGLGHDFLRHIERTKVLLHLIDSASTDPINDFKTINEELTSYGHGLISRPRIFVLNKKELLNENEIKKLLNKIEKMTMKKVHIISAVTKFGLDDLL... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
A8F478 | MQKEDFVDRVTIFVKAGDGGNGAVSFRREKYVPKGGPDGGDGGDGGFVILRANPGLSTLLNFKYQRRFIAQNGQHGKGKKQSGKSGEDLVIDVPVGTIVKDANTGEVLADLDRSWMMVCVARGGKGGRGNIHFATSVFRAPRIAEKGDKGEERWLELELKLLADAGLIGFPNVGKSSLISAMSNARPKIADYPFTTLVPNLGVVKIDENSEFVLADIPGLIERASEGAGLGNLFLRHIERCSVLVHVIDISGSEGRDFIKDYDVIVQELCKYNEQLSRKPQIIVANKIDLLEKDELEKRLETLEKHANQKIYPVSALLRI... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
Q9PAS3 | MKFVDEAEIQVIAGNGGDGCVSFRREKFIPLGGPDGGDGGDGGSVWLVADENLNTLVDFRHERIFKAQRGVNGMGQQMYGKAGQDKIISVPIGTVVINVQTDEVIGDMVRHGDRLLVAKGGTGGLGNMHFKSSINRAPRQARPGEQGEERTLKLELKLLADIGMLGFPNVGKSTFIRAVSAATPKVADYPFTTLYPNLGVVKIEAYSSFVIADVPGLIEGAADGVGLGTQFLRHLQRTKLLLHMVDISATADAYGNEKVGVGLLPIEQVRKLEIELERHDPALLDKPRWLVLNKADLMPQEEAQALAEALIAELHWTAPW... | Function: An essential GTPase which binds GTP, GDP and possibly (p)ppGpp with moderate affinity, with high nucleotide exchange rates and a fairly low GTP hydrolysis rate. Plays a role in control of the cell cycle, stress response, ribosome biogenesis and in those bacteria that undergo differentiation, in morphogenesis ... |
P72296 | MPFDPLFLWETFIALLAGIPLALKLAVFSIAVGTVLAFSLALMRVSRRWWLDFPARFYIFAFRGTPLLVQIYIIYYGLSQFPGLRHSLLWPFLREAYWCALGALALNTAAYSAEIMRGGLLSVPAGQIEAARACGMARVLLFRRIIIPQAIRQMLPGYSNEVVLMVKSTSLASTITLMEITGIAAKLISETYRPVEVFACAGAIYLTMNFIAARLFALIEWSLWPERRKTRRPVDLADQKGELHV | Function: Component of the octopine active transport system probably consisting of four subunits: Q, M, P and T.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 27536
Sequence Length: 245
Subcellular Location: Cell inner membrane
|
P35114 | MPFDPAFLWQTFVALLSGIPLALQLAVFSVALGTVLAFGLALMRVSRLWWLDLPARFYIFAFRGTPLLVQIYIIYYGLSQFPDVRHSFIWPFLRDAYWCAMAALALNTAAYTAEIMRGGLLSVPAGQIEAAKACGMGRVKLFRRIVIPQAIRQMLPGYSNEVILMVKSTSLASTITIMEITGIAAKLISESYRTVEVFSCAGAIYLILNFIVARLFTLLEWALWPERRNNRLTTDPVDRKGELHA | Function: Component of the octopine active transport system probably consisting of four subunits: Q, M, P and T.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 27487
Sequence Length: 245
Subcellular Location: Cell inner membrane
|
P0A2V2 | MPNPVRPAVQLKDIRKNFGNLEVLHGVSLSANEGEVISILGSSGSGKSTLLRCVNMLEVPNAGSVAIMGEEIALEHRAGRLARPKDLKQVNRLRERAAMVFQGFNLWSHQTILQNVMEAPVHVQGRDRKACRDEAEALLERVGIASKRDAYPSELSGGQQQRAAIARALAMRPDVMLFDEPTSALDPELVGEVLKVMRDLAAEGRTMLIVTHEMDFARDVSSRTVFLHQGVIAEEGPSSEMFAHPRTDRFRQFLRRDGGTSH | Function: Component of the octopine active transport system probably consisting of four subunits: Q, M, P and T.
Location Topology: Peripheral membrane protein
Sequence Mass (Da): 28954
Sequence Length: 262
Subcellular Location: Cell inner membrane
|
P0A4N5 | MDYSQLMGFGPDGWGYDMLRATAMTMAVAFSGFTIGLVFGCLGAAASLSSSGALQAAASGYTTALRGIPDLLVIYLFYFGSSSVISNVASLFGSSGFVGASTFLIGALAIGVVSGAYQTQVLRGAVLALNKGEIEAGRAYGMGALLLFRRIVLPQAARYALPGVGNVWQLVLKESALISVIGLVELMRQAQVGSGSTRQPFSFYLTAAALYLLITFVSGQVFRLAETRSMRGLQRGV | Function: Component of the octopine active transport system probably consisting of four subunits: Q, M, P and T.
Location Topology: Multi-pass membrane protein
Sequence Mass (Da): 24801
Sequence Length: 237
Subcellular Location: Cell inner membrane
|
Q9BHM6 | MTVKVCVCGGGNGAHTLSGLAASRDGVEVRVLTLFADEAERWTKALGADELTVIVNEKDGTQTEVKSRPKVITKDPEIAISGADVVILTVPAFAHEGYFQAMAPYVQDSALIVGLPSQAGFEFQCRDILGDKAAAVSMMSFETLPWACRIKEFGRKVEVLGTKSVLAASLIKGTAKTVDPLSTLQMLHGAEPVFRLAKHFLEMLIMSYSFVHPAILFGRWGSWDGKPVPEAPLFYQGIDQATADMLTACSNECKDVANAIMAACPGNDLSDVKDIYQWYLEYYHEDIQDDHDLYHAITTNKSYKGLVHPVKAVDGGVAPD... | Function: Catalyzes the reverse reaction of octopine dehydrogenation. Acts on L-arginine in preference to other substrates such as canavanine, cysteine, L-alanine, ornithine or norvaline, owing to the presence of the positively charged guanidium group.
Catalytic Activity: D-octopine + H2O + NAD(+) = H(+) + L-arginine +... |
Q6Z244 | MVAPSRLPSHEEQSAAAAADGSATPSQGIPVVDLGVLINGAADERSRAIRDLGRACEDWGFFMVTNHGVPEALREAIMDACKELFRLPLEEKKEYMRAKPMDPIRIGTGFYSVVDAVPCRRDYLKMFSHPEFHCPEKPAKLREIATEYATCTRALLLELTKAISESLGLAGGRLSEALNLESCFQILVGNHYPACSRPDEQAMGLSAHSDHGLLTLLFQNGVDGLQVKHDGEWLLAKPLPGSFFVIAGDQLEIVTNGRYKGVLHRAVVGGEQSRMSFVSLIGPCMDTVVEPLPEMAADGRGLEFRGIRYRDYMEMQQSNS... | Cofactor: Binds 1 Fe(2+) ion per subunit.
Function: Involved in melatonin degradation . Catalyzes the hydroxylation of melatonin to produce 2-hydroxymelatonin .
Catalytic Activity: 2-oxoglutarate + melatonin + O2 = 2-hydroxymelatonin + CO2 + succinate
Sequence Mass (Da): 36999
Sequence Length: 337
Subcellular Location:... |
Q7XR83 | MPAVAGSLYMASQHKGVPPPLPPPPRPLPVINLGRLTMDSASRALAVRDIVLACRERGCFEVVNHGISRSCMNGALEAASEFFQLSTERKEEFASDDIRQPIRYDTSSRDGISMSRSFLKHYANPLDDWIKFWPTQPPTYREKMGEYAVETQRVSMQLMEAILQGLGLGPSYLQEKLEGGVQFVALNNYPQSSAKKADKIGLAPHSDYGFLTILLQSSPGLEVMHHEDDAWTSVPAIPGALHVHVGDHLEVLSNGQLKSLVHRAVLNPNESRISIASIHGLSMDEEVHCAEELVDEHHPKMYRGSSFQDFLDFLPANMNR... | Cofactor: Binds 1 Fe(2+) ion per subunit.
Function: Involved in melatonin degradation . Catalyzes the hydroxylation of melatonin to produce 2-hydroxymelatonin .
Catalytic Activity: 2-oxoglutarate + melatonin + O2 = 2-hydroxymelatonin + CO2 + succinate
Sequence Mass (Da): 37187
Sequence Length: 333
Subcellular Location:... |
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