UniProt ID stringlengths 6 10 | Protein Sequence stringlengths 2 35.2k | Functional Description stringlengths 5 30.7k |
|---|---|---|
Q07263 | MARRSRLRRLLLLLLLPVASTSDAEHRLFERLFEDYNEIIRPVANVSDPVIIQFEVSMSQLVKVDEVNQIMETNLWLKQIWNDYKLKWNPSDYDGAEFMRVPAEKIWKPDIVLYNNAVGDFQVDDKTKALLKYTGEVTWIPPAIFKSSCKIDVTYFPFDYQNCTMKFGSWSYDKAKIDLVLIGSSMNLKDYWESGEWAIIKAPGYKHDIKYNCCEEIYPDITYSLYIRRLPLFYTINLIIPCLLISFLTVLVFYLPSDCGEKVTLCISVLLSLTVFLLVITETIPSTSLVIPLIGEYLLFTMIFVTLSIVITVFVLNVHY... | After binding acetylcholine, the AChR responds by an extensive change in conformation that affects all subunits and leads to opening of an ion-conducting channel across the plasma membrane. Neuronal AChR is composed of two different types of subunits: alpha and beta. Alpha-3 subunit can be combined to beta-2 or beta-4 ... |
P18845 | MNSASRITLFFLLTVLITQECLSSKGEDRLFRRLFRRYNQFIRPVENVSDPVTVEFEVSISQLVKVDEVNQIMETNLWLRHIWNDYKLKWLPAEFDGIEFIRVPSNKIWRPDIVLYNNAVGDFLVEDKTKALLKYDGTITWVPPAIFKSSCPMDITYFPFDYQNCSMKFGSWTYDKAKIDLVLIGSKVNLKDFWESGEWEIIDAPGYKHDIKYNCCEEIYPDITYSFYIRRLPLFYTINLIIPCLLISFLTILVFYLPSDCGEKVTLCISVLLSLTVFLLVITETIPSTSLVIPLIGEYLLFTMIFVTLSIVITVFVLNV... | After binding acetylcholine, the AChR responds by an extensive change in conformation that affects all subunits and leads to opening of an ion-conducting channel across the plasma membrane. Neuronal AChR seems to be composed of two different type of subunits: alpha and non-alpha (beta). Expressed in retina and brain. B... |
P09481 | MQSIHALLLTAAVCILFQGCGGSEPEHRLYAALFKNYNQFVRPVKNASDPVIIQFEVSMSQLVKVDEVNQIMETNLWLKHIWNDYKLRWNPVDYGGAEFIRVPSGQIWKPDIVLYNNAVGDFQVDDKTKALLKYTGDVTWIPPAIFKSSCKIDVTYFPFDYQNCTMKFGSWSYDKAKIDLVLIGSTMNLKDYWESGEWAIIKAPGYKHDIKYNCCEEIYTDITYSLYIRRLPLFYTINMIIPCLLISFLTVLVFYLPSDCGEKVTLCISVLLSLTVFLLVITETIPSTSLVIPLIGEYLLFTMIFVTLSIVITVFVLNVH... | After binding acetylcholine, the AChR responds by an extensive change in conformation that affects all subunits and leads to opening of an ion-conducting channel across the plasma membrane. Neuronal AChR seems to be composed of two different type of subunits: alpha and non-alpha (also called beta). A functional recepto... |
Q5DZD2 | MNNEYVLVINSGSSSLKFAVIDSVSGDAVLSGLGECFGLEDARMSWKYQGQKTEIAIEGNENHHKIAIGKLVGLTEELGFTDGIVAIGHRIVHGGEKFTKTVRINEEVTKEIESLSDLAPLHNPAGAIGIRAAVEAFPSLPQFAVFDTAFHQTMPKRAYTGAIAKELYTDFGVRRYGFHGTSHYFVSREAAKMINKPIEESNFISVHLGNGASVCAIKDGNSVDTSMGFTPLSGLMMGTRCGDLDPGIIEYLLKKGWSQEQVFNSLNKESGFLGVSGLTSDARGILEAMEEGHEGATLAFQVFTYRVAKYVASYLAALDS... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q8XJN2 | MNVLVINCGSSSLKYQLIDMDTENALATGLVERIGLEGANLTQKSEGKDKYEIVEPMKDHQDAIRLVLGALIDEKHGVIKSLDEINAIGHRVVHGGEKYAESALVTEEVMKDLEECAKLAPLHNPANIIGINACKALMPNVPMVVVFDTAFHQTMPEKAFVYALPYELYEKEHIRKYGFHGTSHKYVSAKIAEAMGKNIEDLKIITCHLGNGASIAAIKNGKCVDTTMGFTPLEGLVMGTRCGNIDPAVVTYLIDELGYTSQEVNTLMNKKSGIFGVSGVSSDFRDVEAAADKGSKEAQIALDLFRNSVKKYIGAYIAEM... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q9CE36 | MEKTLAVNAGSSSLKWQLYEMPEETVIAKGIFERIGLSGSISTTKFNNEEHFRKQEIVDHRQAVLLLMDELIHFKLIHEFREITGIGHRVVAGGEFFKTSTVISPEVLAEIKNLSTLAPLHNPANVLGIEAFQRLLPDALAVAVFDTAFHSTLPEKAYRYPIPTKYYEDYSIRKYGAHGTSHMYVAQEAEKVLGKPLEDLKLITAHIGNGASITAIEAGKSVDTSMGFTPLAGVMMGTRAGEMDASVIPYMLESDPSLRNAQDVIDILNKDSGVLGVSELSSDMRDLSEAVAKGNPKAILAYEMYVDRLKKFIAQYFGVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q92CN9 | MHKIMAINAGSSSLKFQIFTMPGEEVLVKGLIERIGLPDAIFNMSFQNEKIKETRAINNHGEAVEILLEQLKTHQVINDLNEITGVGHRVAHGGEAFVSSCIVTDDVVKGIEDVTSLAPLHNPANIIGIKTFRELLPNAVSVAVFDTAFHQTIPEENFLYALPYELYEKHHIRKYGFHGTSHKYVAGKAAEVLKKPLEKLKIISCHLGNGASVCAIEAGKSVNTSMGFTPNAGLMMGTRSGTIDATIIPYLVDELGYSLDEVTHMMSSESGVLGVSGISSDFRDIEIAANEGNSRALLTLRMFTGQICNYIGAYASAMNG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q71Z86 | MEKTIAINAGSSSLKFQLYDMPSERVITAGIVERIGLKDSIFTITVDGEKIKEIIDIPDHEIAVQMLLEKLINHKVIGSYDEITGIGHRVVHGGERFPESVYIDDQVIKDIEALSELAPLHNPANVTGIKAFRKILPDVVSVAVFDTAFHQTMPPASYLYSLPYSYYEDYGIRKYGFHGTSHKYVSERAAELLGRPVEELRLLTCHLGNGASIAAIEGGKSMDTSMGFTPLAGVSMGTRSGNIDPALIPFIMEKTGKTAEQVLDVLNKESGMLGVSGISSDLRDLEDEAAKGNDRAELALQVFVDRIHKYIGSYAARMNG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q8Y7V1 | MHKIMAINAGSSSLKFQIFTMPGEEVLVKGLIERIGLPDAIFNMSFQNEKIKETRAINDHGKAVEILLEQLKAHQVINDLSEITGVGHRVAHGGEDFVTSCVVTDEVVKGIEAVTNLAPLHNPANIIGIKTFRELLPNAVSVAVFDTAFHQTIPQENFLYALPYELYEKHHIRKYGFHGTSHKYVAGKAAEVLEKPLEKLKIISCHLGNGASVCAIEAGKSVNTSMGFTPNAGLMMGTRSGTIDATIIPYLVDELGYSLDEVMHMMSNESGVLGVSGISSDFRDIEIAAKEGNSRALLTLRMFTGQICNYIGAYASAMNG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A1ITN6 | MSDQLILVLNCGSSSLKGAVIDRKSGSVVLSCLGERLTTPEAVITFSKDGNKRQVPLSGRNCHAGAVGMLLNELEKHELHDRIQAVGHRIAHGGEKYSESVLIDQAVMDELNACIPLAPLHNPANISGILAAQEHFPGLPNVGVMDTSFHQTMPERAYTYAVPRELRKKYAFRRYGFHGTSMRYVAPEAACILGKPLEDIRMIIAHLGNGASITAIKNGKSVDTSMGFTPIEGLVMGTRCGDIDPGVYSYLTSHAGLDVAQVDEMLNKKSGLLGISELSNDCRTLEIAADEGHEGARLALEVMTYRLAKYIASMAVGCGG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q9K0X1 | MSDQLILVLNCGSSSLKGAVIDRKSGSVVLSCLGERLTTPEAVITFNKDGNKRQVPLSGRNCHAGAVGMLLNELEKHGLHDRIKAIGHRIAHGGEKYSESVLIDQAVMDELNACIPLAPLHNPANISGILAAQEHFPGLPNVGVMDTSFHQTMPERAYTYAVPRELRKKYAFRRYGFHGTSMRYVAPEAARILGKPLEDIRMIIAHLGNGASITAIKNGKSVDTSMGFTPIEGLVMGTRCGDIDPGVYSYLTSHAGMDVAQVDEMLNKKSGLLGISELSNDCRTLEIAADEGHEGARLALEVMTYRLAKYIASMAVGCGG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q6LLD4 | MSNSLVLVINSGSSSLKFALIDTVSGEATLNGIGECFGLADANVSWKIDGKKHEFQLSDNGNHHKQAIDRIVALLEEQGIKQDIVAVGHRVVHGGEKFTQTVKIDETVLQEIENLSDLAPLHNPAHVVGMRAAIAAFPALSQYAVFDTAFHQTMPAKAFTGAISSKLYDDYGIRRYGFHGTSHYFVSREAAKVINKPIEKSSFISVHLGNGASVCAIKDGQSVDTSMGFTPLSGLMMGTRCGDLDPGIIEFLLKKGWSTEQVFKELNSNSGFLGVSGLTSDCRGVIEAMEEGHAGATLAFEIFTYRVAKYIASYMVALDE... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q9KMT5 | MSNSYVLVINSGSSSLKFAVIDSQTGEALISGLGECFGMPEAVISWKYQGEKTEEAITAADHHHQHAINRIVGLMESLGFAQDLVAVGHRIVHGGEKFTSTVRIDEEVLAEIESLSDLAPLHNPAGAIGIQAAMAAFPSLPQFAVFDTAFHQTMPKKAFTGAISHELYKQYGIRRYGFHGTSHYYVSREAAKMLNKPIEQASFISVHLGNGASVCAISNGQSVDTSMGFTPLAGLMMGTRSGDLDPGIIEFLMKKGWSQEKVFETLNKKSGFLGVSGLTSDARGILEAMENGHEGAKLAFEVFTYRVAKYIGSYLIPLDH... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q87IJ5 | MSNSFVLVINSGSSSLKFAVIDSVSGDAVLSGLGECFGLSDARMSWKFNGEKKEISIEGDDSHHKIAIGKLVGLTEELGLAQDIVAVGHRIVHGGEKFTKTVRITEEVTQEIEKLADLAPLHNPAGAIGIRAAVEAFPSLPQFAVFDTAFHQTMPQRAFTGAIAKELYTDFGIRRYGFHGTSHYFVSREAAKMINKPIEESSFISVHLGNGASVCAINNGESVDTSMGFTPLSGLMMGTRCGDLDPGIIEYLLKKGWSQEKVFNSLNKASGFLGVSGLTSDARGILEAMEEGHEGAALAFQVFTYRVSKYIASYLAALDS... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q8D7K4 | MSNSFVLVINSGSSSLKFAVINSVTGEAVLSGLGECFGLEDARMGWKYSGEKTEIAIEGEDNHHKIAIGKLVGLTEELGLTKDIVAVGHRIVHGGEKFTSTVRINEEVTAEIEKLADLAPLHNPAGAIGIRAAMEAFPALPQFAVFDTAFHQTMPKRAFTGAIANELYTDFGIRRYGFHGTSHYFVSREAAKMLNKPIEESSFISVHLGNGASVCAINNGESVDTSMGFTPLSGLMMGTRCGDLDPGIIEYLLKKGWSQEKVFNSLNKASGFLGVSGLTSDARGILEAMEQGHEGATLAFQVFTYRVAKYIASYLAALDS... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q7MEL2 | MSNSFVLVINSGSSSLKFAVINSVTGEAVLSGLGECFGLEDARMGWKYSGEKTEIAIEGEDNHHKIAIGKLVGLTEELGLTKDIVAVGHRIVHGGEKFTSTVRINEEVTAEIEKLADLAPLHNPAGAIGIRAAMEAFPALPQFAVFDTAFHQTMPKRAFTGAIANELYTDFGIRRYGFHGTSHYFVSREAAKMLNKPIEESSFISVHLGNGASVCAINNGESVDTSMGFTPLSGLMMGTRCGDLDPGIIEYLLKKGWSQEKVFNSLNKASGFLGVSGLTSDARGILEAMEQGHEGATLAFQVFTYRVAKYIASYLAALDS... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B0CB11 | MKILVLNAGSSSHKCCLYAIEGPLPDHPAPPLWEAQLDWHDPNHASLKVKTKRENLEEDLSDVSRADALSHLLTTLWHGPTQVIQMAQEINVVGHRVVHGGQDYQSSVVVTSEVKTAIADLIPLAPNHNPANLEGIKLIEQLLGNVRQVAVFDTAFHSHLPEVAAIYPGPYDWQQQGIRRYGFHGISHQYCTQRTAEILGRGVDRLIICHLGNGASLTAVKQGQSIDTSMGFTPLEGLMMGTRSGSIDPGILIHLMRQGYDADQLDHMLNKASGLKGISGVSHDLREIEQAIAQDNAQAKLARDLYLHRLKACLGSMLMS... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A3DE81 | MNILVINTGSSSLKYQLIDMTNESVLAKGVCDRIGLEHSFLKHTKTGGETVVIEKDLYNHKLAIQEVISALTDEKIGVIKSMSEISAVGHRIVHGGEKFKESAIIDEDVMKAIRDCVELAPLHNPSNIIGIEACKQILPDVPMVAVFDTAFHQTMPRHAYIYALPYEIYEKYKLRKYGFHGTSHKYVAHRAAQMLGKPIESLKLITCHLGNGASICAVKGGKSVDTSMGFTPLQGLCMGTRSGNVDPAVITYLMEKEKMNINDINNFLNKKSGVLGISGVSSDFRDVQDAAEKGDDRAQLALDIFCYGVRKYIGKYIAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A9NFI4 | MKILSVNAGSSSLKFQLLQMPEEFEIASGLVERIGNKNAEFKIKFNGSSKTQSDLVVLDHSVAVDLVIKGLLENKVIASLDEIQGVGHRVVQGGQLFKESVVIDDDVVIKIASLNDLAPLHNPANIIGINAFRKAISNVIHVAVFDTTFHQTMPEENFLYGTPYEWYTKHGVRKYGFHGTSHQYVSELAHARLGKDHSRIIVAHIGNGASITAVRDGKSIDTSMGLTPLEGFPTGTRSGNVDPAIFQLMQQKEGYSLEKTLNELNKNSGYLGISGVSHDSRDIIAAAEGGNKRAQLALDIQAKRIVDYIASYYVLLGGLD... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A3N011 | MSKNLILILNCGSSSLKFAVLDPKTGDEKLSGLAEAFNLEDARIKWKLHGEKGNADLGAGAAHSEALTFIANELLSEELRSSIGAIGHRIVHGGEQFTSSVVINDDVVKGIEHAIQFAPLHNPAHLIGIKEAFRIFPELKEKNVAVFDTAFHQTMPEEAFLYALPYKLYKEHGIRRYGAHGTSHLFITSQVAELAGKPVDQTNAIICHLGNGGSVSVVRNGKCIDTSMGLTPLEGLVMGTRSGDIDPAIVFYLYKNLGMSMEQIEDTLVKKSGLLGLTEVTSDCRYAEDNYEDASKPEAKRALDVYSYRLAKYIGAYMAI... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B3H169 | MSKNLILILNCGSSSLKFAVLDPKTGDEKLSGLAEAFNLEDARIKWKLHGEKGNADLGAGAAHSEALTFIANELLSEELKSSIGAIGHRIVHGGEQFTSSVVINDDVVKGIEHAIQFAPLHNPAHLIGIKEAFRIFPELKEKNVAVFDTAFHQTMPEEAFLYALPYKLYKEHGIRRYGAHGTSHLFITSQVAELAGKPVDQTNAIICHLGNGGSVSVVRNGKCIDTSMGLTPLEGLVMGTRSGDIDPAIVFYLYKNLGMSMEQIEDTLVKKSGLLGLTEVTSDCRYAEDNYEDASKPEAKRALDVYSYRLAKYIGAYMAI... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B0BNS1 | MSKNLILILNCGSSSLKFAVLDPKTGDEKLSGLAEAFNLEDARIKWKLHGEKGNADLGAGAAHSEALTFIANELLSEELKSSIGAIGHRIVHGGEQFTSSVVINDDVVKGIEHAIQFAPLHNPAHLIGIKEAFRIFPELKEKNVAVFDTAFHQTMPEEAFLYALPYKLYKEHGIRRYGAHGTSHLFITSQVAELAGKPVDQTNAIICHLGNGGSVSVVRNGKCIDTSMGLTPLEGLVMGTRSGDIDPAIVFYLYKNLGMSMEQIEDTLVKKSGLLGLTEVTSDCRYAEDNYEDASKPEAKRALDVYSYRLAKYIGAYMAI... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C4Z917 | MNVLVINCGSSSLKYQLINSDSEEVLAKGLCERIGIDGRLVYQKEGLDKEITEAPMPTHKEAIQMVLDALVNPKTGAVKSLAEIDAVGHRVVHGGEKFSDSVVITEEVIAQVEECNDLAPLHNPANIIGIRACQALMPNVPMVGVFDTAFHQTMPEKAYLYGLPYEYYEKYKVRRYGFHGTSHSFVSKEAASYLGMDLNNSKIIVAHLGNGASVSAVLNGKCVDTSMGLTPLEGLVMGTRSGDIDPSIMEFIAKKENLDIDGVMNVLNKKSGVAGMSGVSSDFRDLEAAYNEGNERAIAAVEVFSYRVAKYIGAYAAAMN... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B1YKC5 | MAKIMAVNAGSSSLKFQLLEMPNETMIAVGLVERVGKDDAIFTIKYGEGQKFTDVLPLATHKEAVELSLEKLMEFGIISSYDEIKGVGHRVLHGKEKYADSVIITEDVMQDIESYTELGPLHIPPNLIGIRAFQAILPNVPQVAVFDTAFHQTMPEENFLYSLPYEYYTEYGIRKYGFHGTSHKYVTERASELLGRPLQDLRLISCHLGSGASIAAVAGGESIDTTMGFTPLEGITMGTRSGSLDPALIPFLMEKTGKTAEDVLNVMNKESGIYGLSGLSSDLRDVQTAAKEGNHRSEMALRIFANRIHGYIGQYAAEMN... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C4L493 | MTKIMAVNAGSSSLKFQLLEMPTEELLAVGLVERVGKEDAIFTIKYGEGQKFNVVTPLHTHKEAVELTLEKLIELDIIQSFDEISGVGHRVLHGKELYADSVVIDDEVMKNIESFTELGPLHIPPNLTGIRAFQAILPNVPQVAVFDTAFHQSMPEENFLYSLPYEYYTEHGVRKYGFHGTSHKYVTQRAAELLGRPLEDLRLISCHLGSGASIAAVAGGRSIDTTMGFTPLEGITMGTRSGSLDPALIPFLMQKTGKSAEDVLNVMNKESGVYGLSGISSDLRDIEQAAAEGNHRAEVSLKIFSNRIHGYIGQYAAEMN... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A7HL30 | MRVLVVNCGSSSIKYQFLDMDTEQVLCKGLAERIGIPGSRIVHKKDDQKVVVEKPMKDHEDALKYVLELVVDEKVGGVKDLKEIDAVGHRVVHGGEKFSGSVLIDEEVMRALEEYSYLAPLHNPPNIMGIRAMMKLLPGVPNVAVFDTAFHSKMPAKAYLYAIPYEYYKKYKIRRYGFHGTSHRYVSKRTAEILGLDYHKSKIITVHLGNGASIAAVMNGHSIDTSMGFTPLEGLVMGTRSGDIDPSIVTFLMEKEGLTAEEVYTILNKKSGVLGLTDGFSSDMRDIEGKALEGDPVCRLALDIYEYRIAKYIGAYIAAM... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B0S1N0 | MKVLVINCGSSSLKYQLFDMTDESVLCKGLVERIGIEGSKLTHKVNGEKLVVEEPMKDHTEAINHVFDALLDEKYGVIKSLDEVSAIGHRVLHGGDKLTESCIIDDKVKDKIREFIKFGPLHNPANLMGIEACEKLAPGKKNIAVFDTAFHQTMPAKTFMYAIPYEYYEDYRLRKFGFHGTSHRYITLRTQQLLGKEDINIITVHLGNGSSIAAVKNGKCYDTSMGLTPLEGLLMGTRSGDLDPTVMTFLMNEKGYSADEMNQILNKKSGVLGVSGISSDFRDLEEEAEKGNDRAQLALDMFIERVKRYIGGYMAELGHV... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A5FE24 | MKILIINSGSSSIKYQLMVMPANEVICSGMIDRIGLETSNITFKTVSNSFEEILPVPTHKVGLQKVADMLLDAETGVIKTTSEITAVGHRVVHGGSYFSNTTVITEEVKEKIKELSELAPLHNPAHLVGINVAEEIFASAKQVAVFDTAFHQTIPVEAHKYAIPNFLLTEHKVRVYGFHGTSHKYVSEKAINYLEKGSKIITIHLGNGCSMTAVKDGKSIDTTMGFSPANGLVMGTRAGDIDQSVIFYMVKSLGYTPDEVNSILLKQSGMLGLTGYSDLRDIESKASEGNKDCQLALLMNAYRIRKTIGSYAAALNGLDA... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q0BPA5 | MSEILVLNCGSSSVKFALINPHTSQSLVTGLAENIATKNCKVVFKAEHKIEKYLENGSYKDVFEMLKDFLVENKHLEKIVAIGHRVVHGGQYFSKSVLINADSLEKIKACIALAPLHNPAHIEGIRFCQQIFPELPQVAVFDTAFHQTVPSYIAEYAIPYELTHKHNIRKYGAHGTSHKYVSEQAAKILTQQKANVIVAHLGNGCSITAVVDGKSIDTSMGLTPLDGLVMGTRSGCIDPSIFAYIISDNLGWSVTEITNMLNKQSGLLGICGHNDMREVSQLAAKGDSLAKLAIEIFSHRVAKFVASYMIYFNKLDALVF... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q9F1X7 | MSKIIAVNAGSSTLKFKLYEMPEENVLAEGVIERIALPASHVEIKYGDGKKYEKTTDVKNHEQAIQILLDQLLDLDIIKEYSEINGVGHRVVAGGEYFDKSVVITPDVLKKIESLTELAPLHEPANVLGIKAFKKVLPDIISVAVFDTAFHATLPEKNFLYSLPYEYYEKYSARKYGFHGIGNRYVSQRAAELLGKPAEDLKMIITHLGAGASICPVKNGKSFDTSMGFTPVTGITMATRSGDVDPSLLAYVMEKEGMTDINEMIKVLNTKSGLLGISGVSADMREVEAAQATNPRAKVAREIYVNRIIRYVGAYLAEMG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q8RED7 | MKILVINCGSSSLKYQLINPETEEVFAKGLCERIGIDGSKLEYEVVAKDFEKKLETPMPSHKEALELVISHLTDKEIGVIASVDEVDAIGHRVVHGGEEFAQSVLINDAVLKAIEANNDLAPLHNPANLMGIRTCMELMPGKKNVAVFDTAFHQTMKPEAFMYPLPYEDYKELKVRKYGFHGTSHLYVSGIMREIMGNPEHSKIIVCHLGNGASITAVKDGKSVDTSMGLTPLQGLMMGTRCGDIDPAAVLFVKNKRGLTDAQMDDRMNKKSGILGLFGKSSDCRDLENAVVEGDERAILAESVSMHRLRSYIGAYAAIM... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C1A9T6 | MNILVLNAGSATLKFQVVVTDAQRIAADQDEKLIRGQIERIGGESVITLRLPDGSSRKRTAALRDLRAAVDWLVGFVTSAESGTGLSARADLHAVGHRVVHGGEQFRNSVRVDDGVLRGIEETIELAPLHNPHNLRGIEAARAALGDGVPQVAVFDTAFHQTLPEHAYLYAIPYPLYRRHKVRRYGFHGTSHRSIAYRFRKLTGRAKADVRIVTLHLGNGCSACAIKDGQSIDTSMGFTPLEGLVMGTRAGDIDAALLDYIGAKEGLSPPQVEAMLNSQSGLLGISGLTNDMRDLLAEANELRDRRARLAIEMFCYRARK... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q5KW66 | MAKVLAINAGSSSLKFQLFEMPAETVLTKGVVERIGFDDAIFTIVVNGEKHQEVTAIPDHAAAVKMLLDKLIRYGIIRSFDEIDGIGHRVVHGGEKFSDSVLITEDVIKQIEEVSELAPLHNPANLVGIRAFQEVLPDVPAVAVFDTAFHQTMPEQSFLYSLPYEYYTKFGIRKYGFHGTSHKYVTQRAAELLGRPIEQLRLISCHLGNGASIAAVEGGKSIDTSMGFTPLAGVAMGTRSGNIDPALIPYIMEKTGMTADEVIEVLNKKSGMLGLSGISSDLRDLEKAAAEGNERAELALEVFANRIHKYIGSYAARMCG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q39WV0 | MVILALNCGSSSVKYQLFDWEKKEVVAKGMVERVIIGDSFIMHEVPGRETYRKEYECPDHKVAIDLIIRTLVDGEHGVLKDINEISAVGHRVVHGGEMFTRSVLIDEKVLDAVKDVQHLAPLHNPPNIAGIEAAQAVLPSVPHVAIFDTAFHQTMPEHAYLYPLPYEWYEKYGVRRYGFHGTSHLFVSKRAAVLLGKKPSDCNIITMHIGNGVSHCAIRGGVSIDTSMGLTPLEGAVMGTRCGDIDPAIPAFMMQKENLSAKEIDSILNKKSGVLGVTGRFTDRRDVIENANNGDHRCKVALEIEAYRLKKYIGTYMAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q749N5 | MIILALNCGSSSVKYQLFDWERKEVVAKGMVERVIIGDSFIMHEVPGRETYRKEYECPDHQVAIDLIIRTVVDADHGVLKDINEISAVGHRVVHGGEMFTRSVLIDEKVLDAVKEVQHLAPLHNPPNIAGIEAAQAVLPHVPHVAIFDTAFHQTMPEHAYLYPLPYEWYEKYGVRRYGFHGTSHLYVSKRAAVLLGKTPSECNIITMHIGNGVSHCAIKGGVSVDTSMGLTPLEGAVMGTRCGDIDPAIPAFMMQKENLSAKEIDSILNKKSGVLGVTGRFTDRRDVIEHASNGDHRCKVALDIEAYRLKKYIGTYMAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C5D683 | MSKILAINAGSSSLKFQLFEMPSETVLTKGIVERIGFDDAIFTITVNGEKIQEVTAIPNHAVAVKMLLDKLISHGIIRSFDEIDGIGHRVVHGGEKFSDSVLITDEVLKQIEEVSELAPLHNPANIVGIKAFQEVLPNVPAVAVFDTAFHQTMPEQSFLYSLPYEYYTKFGIRKYGFHGTSHKYVTQRAAELLGRPIEQLRLISCHLGNGASIAAVEGGKSIDTSMGFTPLAGVAMGTRSGNIDPALIPYIMQKTGMTADEVLEVLNKKSGMLGISGISSDLRDLEKAAAEGNKRAELALEVFANRIHKYIGSYAARMCG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B8F420 | MSKNILILNCGSSSLKFAILDPASGDEKLSGLAENFNLVDARIKWKLNGEKGAADLGAGAAHSEALNYIVKNILSAELKDSIGAIGHRIVHGGEKYTSSIVITDEVVAGIKEAAAFAPLHNPAHLIGIEEAFKAFPELKEKNVAVFDTAFHQTMPEHAYLYALPYSLYKEHGVRRYGFHGTSHYYVSREVAKVVGVEPSKVNVITCHLGNGASVAAIRNGKCIDTSMGFTPLEGLVMGTRSGDLDPAIIFFMHNTLGMSVKEIEETLVKKSGLLGLTEVTSDCRYAEDNYATHADAKRAMDGFCYRLAKYIGAYMAVLGD... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B7KGG9 | MKILVLNAGSSTQKSCLYDLTGDTLPQAPPKPIWKGDIDWTIATDHGLLEIKANGVEKKLNLSADDHLKGMSQMLDSLVQGETKVIDDLSEIEIVGHRVVHGGLNYTQATLITQEVKQTIADLIPLAPTHNPAHLEGIETVEKLLGNVPQLAVFDTAFHSTLPLEVAAYPLPYEWLEKGLRRYGFHGISHQYCVHRAAELLGKPLNSLKLINCHLGNGCSLAAVKDGISINTTMGFTPLEGLMMGSRSGSIDPEIPIFLIRDHGFTPEDVITVLNKKSGLKGVSGVSSDLRAIQKAIQEGNEKAQLAFKMYIHRLRFYIG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q7NLW9 | MKVLVLNAGSSSQKSCLYDLPHTQLPQEPPQPLWEAQIDWPHGGDGAKLKIKTVHHRHEKTLQGGSRSEDSARMLETLYSGETRVIADPSEIEMVGHRVVHGGEAYRESTRITPEVKAAIDQLARFAPVHNPANLAGIEALEALLGPQVPQIAVFDTAFHSRLPAAAYVYPGPYEWLDQGIRRYGFHGISHRYCAERAAQILGRDLAQLRLITCHLGNGCSLAAVQGGFSIDTTMGFTPLEGLMMGSRSGSVDPGILIHLMRQADYTVDKLDHILNQASGLEGVSGISNDLRPLFKAIDEGNARAKLALDIYIHRLRAGI... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q7VLI5 | MSQNLILILNCGSSSLKFAILDPINGDEKLSGLAESFYLDDARIKWKFNGEKGNADLDAGAAHTEALNFIVSNILTDELKQSIGAIGHRIVHGGEKFTSSVVITDEVVKGIEEVIQFAPLHNPAHLIGIQEAFRIFPELKDRNVAVFDTAFHTTMPEQAYLYALPYSLYKDHGVRRYGAHGTSHYFVSREAARRLNVAEDKVNVITCHLGNGGSVSAIRHGECIDTSMGLTPLEGLVMGTRSGDIDPAIIFYMHDTLGMSVEEINNTLTKKSGLLGLTEVTSDCRYAEDNYETDDAARRAMEVYCYRLAKYIGSYMAVIG... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q4QL95 | MSKLVLILNCGSSSLKFAILDPATGEEKLSGLAEAFFLPEARIKWKLNGEKGNADLGAGAAHTEALNFIASNILTDELKNSIAAIGHRIVHGGEKYTQSVIVTDEVVKGIEDAAQFAPLHNPAHLIGIREAFNAFPHLKDKNVVVFDTAFHQTMSEEAFLYALPYSLYKEHGVRRYGAHGTSHYFISREVAEYVGKPADQVNAIICHLGNGGSVSVVRNGQCIDTSMGLTPLEGLVMGTRCGDIDPAIVFYLYKTLGMSMEQIEETLVKKSGLLGLTEVTSDCRYAEDNYDNASKPEAKRALNVYSYRLAKYIGAYMAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A5UCQ6 | MSKLVLILNCGSSSLKFAILDPATGEEKLSGLAEAFFLPEARIKWKLNGEKGNADLGAGAAHTEALNFIASNILTDELKNSIAAIGHRIVHGGEKYTQSVIVTDEVVKGIEDAAQFAPLHNPAHLIGIREAFNAFPHLKDKNVVVFDTAFHQTMSEEAFLYALPYSLYKEHGVRRYGAHGTSHYFISREVAEYVGKPADQVNAIICHLGNGGSVSVVRNGQCIDTSMGLTPLEGLVMGTRCGDIDPAIIFYLYKTLGMSMEQIEETLVKKSGLLGLTEVTSDCRYAEDNYDNASKPEAKRALNVYSYRLAKYIGAYMAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A5UIW8 | MSKLVLILNCGSSSLKFAILDPATGEEKLSGLAEAFFLPEARIKWKLNGEKGNADLGAGAAHTEALNFIASNILNDELKNSIAAIGHRIVHGGEKYTQSVIVTDEVVKGIEDAAQFAPLHNPAHLIGIREAFKAFPHLKDKNVVVFDTAFHQTMPEEAFLYALPYSLYKEHGVRRYGAHGTSHYFVSREVAEYVGKPADQVNAIICHLGNGGSVSVVRNGQCIDTSMGLTPLEGLVMGTRCGDIDPAIVFYLYKTLGMSMDQIEETLVKKSGLLGLTEVTSDCRYAEDNYDDESKPETKRALNVYSYRLAKYIGAYMAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C1CA89 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGRSEQQILDIENHTQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEGNHEASLAYEMYVDRIQKYIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q8P2X6 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEHIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q1JE09 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q1JNW6 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q1JJ12 | MSKTIAINAGSSSLKWQLYQMPEEAVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEHIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q1J8W0 | MSKTIAINAGSSSLKWQLYQMPEEAVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGQSADTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A2RC62 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEHIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKYIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B1I9A0 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGCSEQQILDIENHTQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEGNHEASLAYEMYVDRIQKYIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B8ZPA4 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGRSEQQILDIENHTQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEGNHEASLAYEMYVDRIQKHIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q48VQ0 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q97NI3 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGRSEQQILDIENHIQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEGNHEASLAYEMYVDRIQKHIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q9A1T1 | MSKTIAINAGSSSLKWQLYQMPEEAVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYDEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B5XJD9 | MSKTIAINAGSSSLKWQLYQMPEEEVLAQGIIERIGLKDSISTVKYDGKKEEQILDIHDHTEAVKILLNDLIHFGIIAAYGEITGVGHRVVAGGELFKESVVVNDKVLEQIEELSVLAPLHNPGAAAGIRAFRDILPDITSVCVFDTSFHTSMAKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGKSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIEQDPELKDAADVVNMLNKKSGLSGVSGISSDMRDIEAGLQEDNPDAVLAYNIFIDRIKKCIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C0MEF7 | MSKTIAINAGSSSLKWQLYQMPEEKVLAQGIIERIGLTDSISTVKYDGKKEEHILDIPDHTEAVKRLLNDLIHFGIIGTYDEITGVGHRIVAGGEYFKESVVVDDKVVEQVEELAALAPLHNPGAAAGIRAFRKILPDITSVCVFDTSFHTTMQKHTYLYPIPQKYYTDYKVRKYGAHGTSHKYVAEEAAKMLGRPLDELKLITAHVGNGVSITANYHGQSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIAQDPELKDAADVVNMLNKQSGLGGVSGISSDMRDIEAGLQANNPDAVLAYNIFIDRIKKFIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
A4VSL6 | MSKTIAINAGSSSLKWQLYQMPEETVLAAGIIERIGLNDSISTVKYDGKKESEVLDIPNHTVAVKILLEDLLKHNIIAAYEEITGIGHRVVAGGEYFKESAVISQQEIEQIEELSALAPLHNPAHVAAMRAFEEVLPEVLNVAVFDTAFHTTMPKHAYLYPIPQKYYTDYKVRKYGAHGTSHYYVAHEAAKVLGRPIEELKLITAHIGNGVSITANYHGESVDTSMGFTPLAGPMMGTRSGDIDPAIIPYLIANVEELKDAADVVNMLNKQSGLFGVSGFSSDMRDIEAGIQAHNPDAVLAYNIFIDRIKKFIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
Q03IL2 | MTKTIAINAGSSSLKWQLYEMPEEVVLAKGLIERIGLRDSVSTVKFADRSESQTLDIADHVQAVKILLDDLIRFDIIKSYDEITGVGHRVVAGGEYFKESSLVDEYALAKIEELSASAPLHNPGAASGIRAFKELLPDITSVAVFDTAFHTSMPEVAYRYPVPNRYYTDYQVRKYGAHGTSHQYVSQEAAKLLGKPIEETKIITAHVGNGVSITAVDGGKSVDTSMGLTPLGGVMMGTRTGDLDPAIIPFIIDREPDMADAERIRHVFNKESGLLGISEKSSDMRDIIAGKEAGDEKCTLAYDLYVDRLRKYIAQYFGVM... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
B9DT06 | MSKTIAINAGSSSLKWQLYQMPEETVLAQGIIERIGLKDSISTVKFNGNKEEQVTDIPDHTTAVKILLNDLIHLNIISAYDEITGVGHRIVAGGEYFTDSVLVDEKVIEQVEELSALAPLHNPGAAAGIRAFREILPDITSVCVFDNAFHMTMQKHTYLYPIPQKYYTEHKVRKYGAHGTSHKYVAQEAAKMLGRPLEELKLITAHIGNGVSITANYHGQSVDTSMGFTPLAGPMMGTRSGDIDPAIIPYIIERDPELKDAADAINMLNKKSGLGGVSGISSDMRDIEAGLQEKNPDAVLAYNIFIDRIKKFIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C1CGX4 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGRSEQQILDIENHTQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEWNHEASLAYEMYVDRIQKHIGQYFAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
C1CMZ0 | MTKTIAINAGSSSLKWQLYLMPEEKVLAKGLIERIGLKDSISTVKFDGRSEQQILDIENHTQAVKILLDDLIRFDIIKAYDEITGVGHRVVAGGEYFKESTVVEGDVLEKVEELSLLAPLHNPANAAGVRAFKELLPDITSVVVFDTSFHTSMPEKAYRYPLPTKYYTENKVRKYGAHGTSHQFVAGEAAKLLGRPLEDLKLITCHIGNGGSITAVKAGKSVDTSMGFTPLGGIMMGTRTGDIDPAIIPYLMQYTEDFNTPEDISRVLNRESGLLGVSANSSDMRDIEAAVAEGNHEASLAYEMYVDRIQKHIGQYLAVL... | Catalyzes the formation of acetyl phosphate from acetate and ATP. Can also catalyze the reverse reaction. acetate + ATP = acetyl phosphate + ADP Mg(2+). Can also accept Mn(2+). Metabolic intermediate biosynthesis; acetyl-CoA biosynthesis; acetyl-CoA from acetate: step 1/2. Homodimer. Belongs to the acetokinase family. |
P30544 | MENDTWENESSASNHSIDETIVEIPGKYQTMEMIFIATVTGSLSLVTVVGNILVMLSIKVNRQLQTVNNYFLFSLACADLIIGVFSMNLYSLYIIKGYWPLGPIVCDLWLALDYVVSNASVMNLLIISLERXFCVTKPLTYPARRTTKMAGLMIAAAWLLSFELWAPAILFWQFIVGQRTVPSGECYIQFLSNPAVTFGTAIAAFYLPVVIMTILYIHISLASRSRVRRHCPETRQEKKKPISSMKSLLIKQTKNIPKQDAGDKVVEKKNGVSNGKIEKSMTNLQTAEEKETSNESSSASLSHNPPEKQPLSEASSGVVL... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is inhibition of adenylate cyclase. Belongs to the G-protein coupled rece... |
Q96RG7 | MEGDSYHNATTVNGTPVNHQPLERHRLWEVITIAAVTAVVSLITIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWALGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGIMIGLAWLISFILWAPAILCWQYLVGKRTVPLDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSDSVTKAEKRKPAHRALFRSCLRCPRPTLAQRERNQASWSSSRRSTSTTGKPSQATGPSANWAKAEQLTTCSSYPSSEDEDKPATDPV... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover. Belongs to the G-protein coupled receptor 1 family. Musca... |
P56490 | MEGDSYHNATTVNGTPVYHQPLERHRLWEVISIAAVTAVVSLITIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWALGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGVMIGLAWLISFILWAPAILCWQYLVGKRTVPLDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSDSVTEAEKRKPAHRALFRSCLRCPRPTLAQRERNQTSWSSSRRSASTSGKPSQATDPSTNQAKAEQLTTCSSYPSSEDEDKPATDPV... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover. Belongs to the G-protein coupled receptor 1 family. Musca... |
Q0VBI9 | MEGESYHNETTVNGTPVNHQALERHGLWEVITIAAVTAVVSLMTIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWVLGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGIMIGLAWLVSFILWAPAILCWQYLVGKRTVPPDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSDSVAEVKKRKPAHRTLLRSFFSCPRPSLAQRVRNQASWSSSRRSTSTTGKPTQATDLSADWEKAEQVTNCSSCPSSEDEAKATTDPV... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover (By similarity). Belongs to the G-protein coupled receptor... |
Q5IS53 | MEGDSYGNATTINGTPVNHQPLERHRLWEVITIAAVTAVVSLITIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWALGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGIMIGLAWLISFILWAPAILCWQYLVGKRTVPPDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSVSVTKAEKRKPAHRALFRSCFRCPRPTLVQRERNQASRSSSHRSTSITGKPSQATGPSTNWAKAEELTTCSSYPSSEDEDKPATDPV... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover. Belongs to the G-protein coupled receptor 1 family. Musca... |
P08911 | MEGESYNESTVNGTPVNHQALERHGLWEVITIAVVTAVVSLMTIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWVLGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGIMIGLAWLVSFILWAPAILCWQYLVGKRTVPPDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSDSVAEAKKREPAQRTLLRSFFSCPRPSLAQRERNQASWSSSRRSTSTTGKTTQATDLSADWEKAEQVTTCSSYPSSEDEAKPTTDPVF... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover. Belongs to the G-protein coupled receptor 1 family. Musca... |
Q5IS98 | MEGDSYGNATTINGTPVNHQPLERHRLWEVITIAAVTAVVSLITIVGNVLVMISFKVNSQLKTVNNYYLLSLACADLIIGIFSMNLYTTYILMGRWALGSLACDLWLALDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTPKRAGIMIGLAWLISFILWAPAILCWQYLVGKRTVPPDECQIQFLSEPTITFGTAIAAFYIPVSVMTILYCRIYRETEKRTKDLADLQGSVSVTKAEKRKPAHRALFRSCFRCPRPTLVQRERNQASRSSSHRSTSITGKPSQATGPSTNWAKAEELTTCSSYPSSEDEDKPATDPV... | The muscarinic acetylcholine receptor mediates various cellular responses, including inhibition of adenylate cyclase, breakdown of phosphoinositides and modulation of potassium channels through the action of G proteins. Primary transducing effect is Pi turnover. Belongs to the G-protein coupled receptor 1 family. Musca... |
Q3ZPN4 | MASPSSPLVFSVNRCVPQIVRPANPTPREVKQLSDIDDQEGRRFQIPVIMFYRNNPLMEGKDPVKVIREALGKALVYYYPFAGRLIEGDNRKLMVDCTGEGVLFIEADADTTLENLGDAIQPMCPCFEELLYDVPGSTTILGSPLILIQVTRLRCGGFIFALRLNHTMSDAAGLIQFLDTIGEMAQGLSVPSLLPIWQRELLNARNPPRITRIHHEYEKVTNTKGTLMAMDENSLVHRSFFFGREEIRALRNRLPASLGACSTFEVLMACVWRCRTIAFAVDPDEVVRISCIINMRGKHGFELPPGYYGNAFVTPASITK... | Acyltransferase that catalyzes the formation of methyl anthranilate, a compound implicated in the 'foxy' odor character of Concord grapes. Can use a variety of alcohol substrates when assayed with both benzoyl-CoA and anthraniloyl-CoA. anthraniloyl-CoA + methanol = CoA + O-methyl anthranilate benzoyl-CoA + benzyl alcoh... |
A0A3G5BIW4 | MSTTTLDAAVIGTGVAGLYELHMLREQGLEVRAYDKASGVGGTWYWNRYPGARFDSEAYIYQYLFDEDLYKGWSWSQRFPGQEEIERWLNYVADSLDLRRDISLETEITSAVFDEDRNRWTLTTADGDTIDAQFLITCCGMLSAPMKDLFPGQSDFGGQLVHTARWPKEGIDFAGKRVGVIGNGATGIQVIQSIAADVDELKVFIRTPQYALPMKNPSYGPDEVAWYKSRFGELKDTLPHTFTGFEYDFTDAWEDLTPEQRRARLEDDYENGSLKLWLASFAEIFSDEQVSEEVSEFVREKMRARLVDPELCDLLIPSDY... | Plays an important role in the metabolism of acetone derived from propane oxidation (PubMed:17071761). Catalyzes the oxidation of acetone to methyl acetate (PubMed:17071761, PubMed:30392152). Exhibits high catalytic efficiency towards various linear and cyclic ketones, such as butanone, 2-pentanone, 2-heptanone, 2-octa... |
Q9CIT4 | MPVSRIKVKNRHLKKKAKKPLAFYKPATKFAGAVLIAGTLTTTHELLLQQTSPMVQAATNSTEAFIESIAASAKPVADSNGLYPSVMIAQAILESNWGSSQLSRAPYYNLFGIQGTYQGKSVVFKTQEYLNGKWVTKDMPFRVYPSFNQSFQDNAYVLKTTNFGNGPYYAKAWRANAATYQAATAALTGKYATDPNYGASLNRIISQYNLTRFDGASSAGTSNSGGSTATNTNNNSNTSSTTYTVKSGDTLWGISQKYGISVAQIQSANNLKSTVIYIGQKLVLTTSSSSSNTNSSTSSGNSAGTTTPTTSVTPAKPASQ... | Required for cell separation during growth. Hydrolysis of (1->4)-beta-linkages between N-acetylmuramic acid and N-acetyl-D-glucosamine residues in a peptidoglycan and between N-acetyl-D-glucosamine residues in chitodextrins. The LysM domains are thought to be involved in peptidoglycan binding. Belongs to the glycosyl h... |
Q48603 | MPVSRVKVKNRHLKKKTKKPLAFYKPATKFAGAVLIAGTLTTTHELLLQQTSPMVQAATNSSEVFIESIAASAKPVADANGLYPSVMIAQAILESNWGSSQLSRAPYYNLFGIQGTYQGKSVVFKTQEYLNGKWVTKDMPFRVYPSFNQSFQDNAYVLKTTNFGNGPYYAKAWRANAATYQDATAALTGRYATDPSYGASLNRIISQYNLTRFDGASSAGNTNSGGSTTTITNNNSGTNSSSTTYTVKSGDTLWGISQRYGISVAQIQSANNLKSTIIYIGQKLVLTGSASSTNSGGSNNSASTTPTTSVTPAKPTSQTT... | Hydrolyzes the cell wall of L.lactis and M.lysodeikticus. Required for cell separation during growth. Hydrolysis of (1->4)-beta-linkages between N-acetylmuramic acid and N-acetyl-D-glucosamine residues in a peptidoglycan and between N-acetyl-D-glucosamine residues in chitodextrins. The LysM domains are thought to be in... |
A1IHE7 | MTSTFSSLDVSAFTSAADRILAEAVTGDARVPGVVAMVTDRDRTVYSGAAGQRSLGGSAPMTTDDVFAIFSTTKAITATAALQLVEEGLLDLDAPASTYAPAIGTLQVIEGFDDAGEPILRAPKSVPTTRQLLTHTGGFGYDFFDEIYNRLAEEKGQPSVTTASRAALMTPLLFDPGERWQYGTNIDWVGQVVEGLRGKRLGEVFAERIFAPLGIENMSFILREDFRSHLTEIHARNADGSLTPMGLELPSPPEVDFGGHGLYGTVGEYMKFIRMWLNDGVGEGGRVLKAETVEMALRNHLGDLPVTMLPGVIPSLSNDA... | Plays an important role in the metabolism of acetone derived from propane oxidation (PubMed:17071761). Catalyzes the hydrolysis of methyl acetate to acetate and methanol (PubMed:17071761). H2O + methyl acetate = acetate + H(+) + methanol Induced by propane, 2-propanol and acetone. Belongs to the class-A beta-lactamase ... |
D6R237 | MISKDDIRAILAEGTDLGPPEQFPDDADVVMDSFTLIVLQHGLEERHGVVIDPHFEDMEQFTSIDGIHAYLTALPAER | Involved in the biosynthesis of actinomycin (PubMed:10212227). Acts as a carrier in the transfer and thioesterification of 4-methyl-3-hydroxyanthranilic acid (4-MHA) (PubMed:10212227). Antibiotic biosynthesis. 4'-phosphopantetheine is transferred from CoA to a specific serine of the apo-form of this carrier protein. Be... |
Q0II68 | MKIDIHTHILPREWPDLKKRFGYGGWVQLQHNGKGEAKMLKDGKVFRVVQENCWDPEARLREMDQTGVTVQALSTVPVMFSYWAKPQDTLDLCQLLNNDLAATIASHPRRFVGLGTLPMQAPELAVKEMERCVRKLGFPGVQIGSHINEWDLNARELFPVYAEAERLNCSLFVHPWDMQMDGRMAKYWFPWLIGMPAETTAAICSMIMGGVFEKFPKLKVCFAHGGGSFPFTVGRISHGFSMRPDLCAQDNPTNPKKYLGSFYTDSLVHDPLALKLLTDVIGKDKVILGTDYPFPLGELEPGKLIESMGEFDAETKDKLK... | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). ACMS can be converted non-enzymatically to quinolate (QA), a key precursor of NAD, and a potent endogenous excitotoxin of neuronal cells which is implicated in the pathogenesis of various neurodegenerative d... |
Q8T8B9 | MPICEFSATSKSRKIDVHAHVLPKNIPDFQEKFGYPGFVRLDHKEDGTTHMVKDGKLFRVVEPNCFDTETRIADMNRANVNVQCLSTVPVMFSYWAKPADTEIVARFVNDDLLAECQKFPDRLVPLGTLPMNDVQRAVEIFGKRIFFFEIWSPAKKSPEEVKRCVSMGIKGFEVGSHVAEKSLDHRDFWPLYKLTESFKLSTIMPGFCEFFENWGLTTKTPGICEELSVVLFVHPWDMHMWDGRLDKYWMPWLVGMPSETAQAICSVLMGNILVLFPKLKLCFAHGGGAYPQIRGRVSHGWNVRPDLCAGKCKVAPNKLD... | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). 2-amino-3-carboxymuconate 6-semialdehyde + H(+) = 2-aminomuconate 6-semialdehyde + CO2 Secondary metabolite metabolism; quinolate metabolism. Monomer. Belongs to the metallo-dependent hydrolases superfamily.... |
Q54LN9 | MENKETTTTTTTTNNGSDKKKRSLKIDLHTHILPKNWPNLKEKYGYGGWVSLDHHCSCKAKMMIDGKFFREIDSNCWDPDVRIQELNRDDVDIQVLSTVPVMFGYWAKPQDALDLAQYLNDHIAQVVSENPKRFIGLGSLPMQCTESSIQELRRCILELGLPGIQIGSNVNGKNLDDPSLFPIFEECEKLGAAVFIHPWEMVGKDRMPQYWLPWLVGMPAETCLAICSMIFGGVFQRLPNLKVCFAHGGGSFPFTIGRIEHGFNARPDLCAVVNPINPREYIGKFWVDSLVHDEEALKFLVNLMGEKKVTLGTDYPFPLG... | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). 2-amino-3-carboxymuconate 6-semialdehyde + H(+) = 2-aminomuconate 6-semialdehyde + CO2 Secondary metabolite metabolism; quinolate metabolism. Monomer. Belongs to the metallo-dependent hydrolases superfamily.... |
Q96KY2 | MKIDIHSHILPKEWPDLKKRFGYGGWVQLQHHSKGEAKLLKDGKVFRVVRENCWDPEVRIREMDQKGVTVQALSTVPVMFSYWAKPEDTLNLCQLLNNDLASTVVSYPRRFVGLGTLPMQAPELAVKEMERCVKELGFPGVQIGTHVNEWDLNAQELFPVYAAAERLKCSLFVHPWDMQMDGRMAKYWLPWLVGMPAETTIAICSMIMGGVFEKFPKLKVCFAHGGGAFPFTVGRISHGFSMRPDLCAQDNPMNPKKYLGSFYTDALVHDPLSLKLLTDVIGKDKVILGTDYPFPLGELEPGKLIESMEEFDEETKNKLK... | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). ACMS can be converted non-enzymatically to quinolate (QA), a key precursor of NAD, and a potent endogenous excitotoxin of neuronal cells which is implicated in the pathogenesis of various neurodegenerative d... |
Q3UNW3 | MKIDIHTHILPKEWPDLEKRFGYGGWVQLQQQGKGEAKMIKDGKLFRVIQQNCWDPEVRIREMNQKGVTVQALSTVPVMFSYWAKPKDTLELCQFLNNDLAATVARYPRRFVGLGTLPMQAPELAVEEMERCVKALGFPGIQIGSHINTWDLNDPELFPIYAAAERLNCSLFVHPWDMQMDGRMAKYWLPWLVGMPSETTMAICSMIMGGVFEKFPKLKVCFAHGGGAFPFTIGRIAHGFNMRPDLCAQDNPSDPRKYLGSFYTDSLVHDPLSLKLLTDVIGKDKVMLGTDYPFPLGEQEPGKLIESMAEFDEETKDKLT... | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). ACMS can be converted non-enzymatically to quinolate (QA), a key precursor of NAD, and a potent endogenous excitotoxin of neuronal cells which is implicated in the pathogenesis of various neurodegenerative d... |
P83662 | MKIDIHSHILPKEWPDLKKRFGYXGWVELQHHSEGEAKMLKDGKVFRVVQERFVGLGTLPMQAPXSLFVHPWDMQYWFPWLIGMPAETTTAXESMMMGGVFEKVXFAHGGGSFPFTVGRIVILGTDYPFPLGELEPGK | Converts alpha-amino-beta-carboxymuconate-epsilon-semialdehyde (ACMS) to alpha-aminomuconate semialdehyde (AMS). ACMS can be converted non-enzymatically to quinolate (QA), a key precursor of NAD, and a potent endogenous excitotoxin of neuronal cells which is implicated in the pathogenesis of various neurodegenerative d... |
Q8BYC3 | MNPDLRKERAAATFNPELITHILDGSPENTRRRREIENLILNDPDFQHEDYNFLTRSQRYEVAVKKSATMVKKMREFGIADPEEIMWFKKLHMVNFVEPVGLNYSMFIPTLLNQGTTAQQEKWMHPSQELQIIGTYAQTEMGHGTHLRGLETTATYDPKTQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITRGECYGLHAFVVPIREIGTHKPLPGITVGDIGPKFGYEEMDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLSNKLTYGTMVFVRSFLVGSAAQSLSKACTIAIRYSAVRRQSEIKRSEPEPQ... | Involved in the initial and rate-limiting step of peroxisomal beta-oxidation of straight-chain saturated and unsaturated very-long-chain fatty acids. Catalyzes the desaturation of fatty acyl-CoAs such as palmitoyl-CoA (hexadecanoyl-CoA) to 2-trans-enoyl-CoAs ((2E)-enoyl-CoAs) such as (2E)-hexadecenoyl-CoA, and donates ... |
Q8HYL7 | MNPDLRRERDAASFDAEKLTYILDGGSERTRRRREIENLILNDPDFKHEDLNFLTRSERYEIAVRKSATMVKKMRDFGIADPEEIMWFKKPQLINFVEPVGLTYSMFIPTLLDQGTTAQQQKWLPPTQGLQIIGTYAQTEMGHGTHLRGLETTATYDPKTQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLYTKGECYGLHAFIVPIREMGTHKPFPGIIVGDIGPKFGYDEMDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLSNKLTYGTMVFVRSFLVGEAARSLSKACTIAIRYSLIRHQSEIRPGDPEPQ... | Involved in the initial and rate-limiting step of peroxisomal beta-oxidation of straight-chain saturated and unsaturated very-long-chain fatty acids (PubMed:12758125). Catalyzes the desaturation of fatty acyl-CoAs such as palmitoyl-CoA (hexadecanoyl-CoA) to 2-trans-enoyl-CoAs ((2E)-enoyl-CoAs) such as (2E)-hexadecenoyl... |
Q5R8F0 | MNPDLRRERDSASFNPELLTHILDGSPEKTRRRREIENMILNDPDFQHEDLNFLTRSQRYEVAVRKSAIMVKKMREFGIADPDEIMWFKKLHLVNFVEPVGLNYSMFIPTLLNQGTTAQKEKWLLSSKGLQIIGTYAQTEMGHGTHLRGLETTATYDPETQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITKGKGYGLHAFIVPIREIGTHKPLPGITVGDIGPKFGYDEIDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLSNKLTYGTMVFVRSFLVGEAARALSKACTIAIRYSAVRHQSEIKPGEPEPQ... | Involved in the initial and rate-limiting step of peroxisomal beta-oxidation of straight-chain saturated and unsaturated very-long-chain fatty acids. Catalyzes the desaturation of fatty acyl-CoAs such as palmitoyl-CoA (hexadecanoyl-CoA) to 2-trans-enoyl-CoAs ((2E)-enoyl-CoAs) such as (2E)-hexadecenoyl-CoA, and donates ... |
P11354 | MNPDLRKERASATFNPELITHILDGSPENTRRRREIENLILNDPDFQHEDYNFLTRSQRYEVAVKKSATMVKKMREYGISDPEEIMWFKKLYLANFVEPVGLNYSMFIPTLLNQGTTAQQEKWMRPSQELQIIGTYAQTEMGHGTHLRGLETTATYDPKTQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITQGECYGLHAFVVPIREIGTHKPLPGITVGDIGPKFGYEEMDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLSNKLTYGTMVFVRSFLVGNAAQSLSKACTIAIRYSAVRRQSEIKQSEPEPQ... | Involved in the initial and rate-limiting step of peroxisomal beta-oxidation of straight-chain saturated and unsaturated very-long-chain fatty acids. Catalyzes the desaturation of fatty acyl-CoAs such as palmitoyl-CoA (hexadecanoyl-CoA) to 2-trans-enoyl-CoAs ((2E)-enoyl-CoAs) such as (2E)-hexadecenoyl-CoA, and donates ... |
Q6C3Q9 | MTTNTFTDPPVEMAKERGKTQFTVRDVTNFLNGGEEETQIVEKIMSSIERDPVLSVTADYDCNLQQARKQTMERVAALSPYLVTDTEKLSLWRAQLHGMVDMSTRTRLSIHNNLFIGSIRGSGTPEQFKYWVKKGAVAVKQFYGCFAMTELGHGSNLKGLETTATYDQDSDQFIINTPHIGATKWWIGGAAHTSTHCVCFAKLIVHGKDYGTRNFVVPLRNVHDHSLKVGVSIGDIGKKMGRDGVDNGWIQFTNVRIPRQNMLMRYAKVSDTGVVTKPALDQLTYGALIRGRVSMIADSFHVSKRFLTIALRYACVRRQF... | a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Lipid metabolism; peroxisomal fatty acid beta-oxidation. Heteropentamer composed of five different subunits. Belongs to the acyl-CoA oxidase family. |
Q9FJQ4 | MESRREKNPMTEEESDGLIAARRIQRLSLHLSPSLTPSPSLPLVQTETCSARSKKLDVNGEALSLYMRGKHIDIQEKIFDFFNSRPDLQTPIEISKDDHRELCMNQLIGLVREAGVRPFRYVADDPEKYFAIMEAVGSVDMSLGIKMGVQYSLWGGSVINLGTKKHRDKYFDGIDNLDYTGCFAMTELHHGSNVQGLQTTATFDPLKDEFVIDTPNDGAIKWWIGNAAVHGKFATVFARLILPTHDSKGVSDMGVHAFIVPIRDMKTHQTLPGVEIQDCGHKVGLNGVDNGALRFRSVRIPRDNLLNRFGDVSRDGTYTS... | Catalyzes the desaturation of long-chain acyl-CoAs to 2-trans-enoyl-CoAs. Active on substrates longer than C14 and mostly with C18-CoA. Activity on long-chain mono-unsaturated substrates is double than with the corresponding saturated substrates. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Binds 1 FAD per s... |
Q00468 | MALISNLKDEYDHPTKTDPDTNPKIVADIISSKEPPQPSQDVAEERSRTDWDLKEMHEFLEGDEAKSEEILRLYQSIERDPILQTRPEQFDYTKNEERESVALRINQMSKYLETEPYEKFRRRLQLMTVNDPSLGIRMLVNIGLFLNCIRGNGTQKQYDFWAKTKEAGKVKQLLRLFRYDELGHGFNVAGCEIFATFDEKTDQFIIDTPHIGATKWWIGGAAHSATHTVCYARLIVKDIDYGVKTFVVPLRDSTHNLLPGVAIGDIGPKLGRQGVDNGWIQFTEVRIPRFFMLQRWCKVDRQGNVTLPPLEQLSYISLLE... | a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Lipid metabolism; peroxisomal fatty acid beta-oxidation. Belongs to the acyl-CoA oxidase family. |
P11356 | MAMLSQPNDGHDHPEKKDPDTTPKQVAGVISSQDPPHPAKDVAEERARTDWDLKEMHEFLEGDEAKSEQILRLYQSIERDPILQTRPEQFDYTQKQERELVANRINQMTKFLETEPYGKFRRRLQLMTVIDPSLGIRMLVNIGLFLNCVRGNGTQKQFDFWSNKKEAGIVKQLYGCFGMTELGHGSNVAGCETTATFDEKTDEFIIDTPHIGATKWWIGGAAHSATHTVCYARLIVKDVDYGVKTFIVPLRDSRHSLLPGIAIGDIGAKMGRQGVDNGWIQFTEVRVPRFFMLQRWCKVDRQGNVTLPPLEQLSYISLLE... | a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Lipid metabolism; peroxisomal fatty acid beta-oxidation. Belongs to the acyl-CoA oxidase family. |
O64894 | MASPGEPNRTAEDESQAAARRIERLSLHLTPIPLDDSQGVEMETCAAGKAKAKIEVDMGSLSLYMRGKHREIQERVFEYFNSRPELQTPVGISMADHRELCMKQLVGLVREAGIRPFRFVNEDPAKYFAIMEAVGSVDVSLAIKMGVQFSLWGGSVINLGTKKHRDRFFDGIDNVDYPGCFAMTELHHGSNVQGLQTTATFDPITDEFIINTPNDGAIKWWIGNAAVHGKFATVFAKLVLPTHDSRKTADMGVHAFIVPIRDLKSHKTLPGIEIHDCGHKVGLNGVDNGALRFRSVRIPRDNLLNRFGEVSRDGKYKSSL... | Catalyzes the desaturation of long-chain acyl-CoAs to 2-trans-enoyl-CoAs. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Induced one day after germination with a peak at day 5 and then declines steadily until day 8. Belongs to the acyl-CoA oxidase family. |
B2R8U5 | MGSPVHRVSLGDTWSRQMHPDIESERYMQSFDVERLTNILDGGAQNTALRRKVESIIHSYPEFSCKDNYFMTQNERYKAAMRRAFHIRLIARRLGWLEDGRELGYAYRALSGDVALNIHRVFVRALRSLGSEEQIAKWDPLCKNIQIIATYAQTELGHGTYLQGLETEATYDAATQEFVIHSPTLTATKWWPGDLGRSATHALVQAQLICSGARRGMHAFIVPIRSLQDHTPLPGIIIGDIGPKMDFDQTDNGFLQLNHVRVPRENMLSRFAQVLPDGTYVKLGTAQSNYLPMVVVRVELLSGEILPILQKACVIAMRYS... | Oxidizes the CoA esters of the bile acid intermediates di- and tri-hydroxycholestanoic acids (PubMed:27884763). Capable of oxidizing short as well as long chain 2-methyl branched fatty acids (By similarity). (25R)-3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-26-oyl-CoA + A + H2O = (24R,25R)-3alpha,7alpha,12alpha,24... |
Q8VCB0 | MGNPGDRVSLGETWSREVHPDIDSERHSPSFSVERLTNILDGGIPNTELRRRVESLIQRDPVFNLKHLYFMTRDELYEDAVQKRFHLEKLAWSLGWSEDGPERIYADRVLAGYNNLNLHGIAMNAIRSLGSDEQIAKWGQLGKNFQIITTYAQTELGHGTYLQGLETEATYDATTQEFVIHSPTMTSIKWWPGDLGRTVTHAVVLAHLICLGARHGMHAFIVPIRSLEDHTPLPGITVGDIGPKMGFENIDNGFLRLNHVRVPRENMLSRFAEVLPDGTYQRLGTPQSNYLGMLVTRVQLLYKGFLPTLQKACTIAVRYA... | Oxidizes the CoA esters of the bile acid intermediates di- and tri-hydroxycoprostanic acids (By similarity). Capable of oxidizing short as well as long chain 2-methyl branched fatty acids (By similarity). (25R)-3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-26-oyl-CoA + A + H2O = (24R,25R)-3alpha,7alpha,12alpha,24-te... |
O02767 | MGIPVHRVSLGDAWSSRMHPDMESERCAQSFSVERLTNILDGGAQHTALRRKVESIIHGNPQFSSKDNYFMSQNELYEAATRKRYHLQKIAQRMGWTEEGRELEYAHRALSADLNLNLQGIFLKALRSLGSEEQIAKWEPLGKTFQIISTYAQTELGHGTYLQGLETEATYDAATQEFVIHSPTVTATKWWPGDLGRSATHALILAQLICSGARRGMHAFIVPVRSLQDHTPLPGITIGDIGPKMGLQHIDNGFLKMDHVRVPRENMLSRFAQVLPDGAYIKLGTAQSNYLGMLVTRVHLLLGAILSPLQKACVIATRYS... | Oxidizes the CoA esters of the bile acid intermediates di- and tri-hydroxycholestanoic acids (PubMed:9218493). Capable of oxidizing short as well as long chain 2-methyl branched fatty acids (By similarity). (25R)-3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-26-oyl-CoA + A + H2O = (24R,25R)-3alpha,7alpha,12alpha,24-... |
P97562 | MGSPMHRVSLGDHWSWQVHPDIDSERHSPSFSVERLTNILDGGLPNTVLRRKVESIIQSDPVFNLKKLYFMTREELYEDAIQKRFHLEKLAWSLGWSEDGPERIYANRVLDGNVNLSLHGVAMNAIRSLGSDEQIAKWGQLCKNFQIITTYAQTELGHGTYLQGLETEATYDEARQELVIHSPTMTSTKWWPGDLGWSVTHAVVLAQLTCLGVRHGMHAFIVPIRSLEDHTPLPGITVGDIGPKMGLEHIDNGFLQLNHVRVPRENMLSRFAEVLPDGTYQRLGTPQSNYLGMLVTRVQLLCKGILPSLQKACIIATRYS... | Oxidizes the CoA esters of the bile acid intermediates di- and tri-hydroxycoprostanic acids (PubMed:8947475, PubMed:1400324). Capable of oxidizing short as well as long chain 2-methyl branched fatty acids (PubMed:1400324). (25R)-3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-26-oyl-CoA + A + H2O = (24R,25R)-3alpha,7a... |
Q6C248 | MNPNNTGTIEINGKEYNTFTEPPVAMAQERAKTSFPVREMTYFLDGGEKNTLKNEQIMEEIERDPLFNNDNYYDLNKEQIRELTMERVAKLSLFVRDQPEDDIKKRFALIGIADMGTYTRLGVHYGLFFGAVRGTGTAEQFGHWISKGAGDLRKFYGCFSMTELGHGSNLAGLETTAIYDEETDEFIINTPHIAATKWWIGGAAHTATHTVVFARLIVKGKDYGVKTFVVQLRNINDHSLKVGISIGDIGKKMGRDGIDNGWIQFTNVRIPRQNLLMKYTKVDREGNVTQPPLAQLTYGSLITGRVSMASDSHQVGKRFI... | Oxidizes strain chain acyl-CoAs with a chain length of 10 to 14 carbons. Also active toward the 2S isomers of acyl-CoA-esters containing a 2-methyl group. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Lipid metabolism; peroxisomal fatty acid beta-oxidation. Heteropentamer composed of five different subunits. ... |
Q9M7X6 | MTKEPIYSPRMLHRDPDSPRPVLPTQLTSSTLRCSQFQTNVFCLRERDLLERFTSEVAQLQGRGESREFSFLLSHQLAEDLGKAFTEKAMLQTILDAEAKLPTGSVKDVLGLVRSMYALISLEEDPSLLRYGYLSQDNVGDVRREVSKLCGELRPHALALVTSFGIPDSFLSPIAFNWVEANTWSSV | a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 Belongs to the acyl-CoA oxidase family. |
Q96AJ8 | MASTVEGGDTALLPEFPRGPLDAYRARASFSWKELALFTEGEGMLRFKKTIFSALENDPLFARSPGADLSLEKYRELNFLRCKRIFEYDFLSVEDMFKSPLKVPALIQCLGMYDSSLAAKYLLHSLVFGSAVYSSGSERHLTYIQKIFRMEIFGCFALTELSHGSNTKAIRTTAHYDPATEEFIIHSPDFEAAKFWVGNMGKTATHAVVFAKLCVPGDQCHGLHPFIVQIRDPKTLLPMPGVMVGDIGKKLGQNGLDNGFAMFHKVRVPRQSLLNRMGDVTPEGTYVSPFKDVRQRFGASLGSLSSGRVSIVSLAILNLK... | Oxidizes the CoA-esters of 2-methyl-branched fatty acids. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 (2S)-pristanoyl-CoA + O2 = (2E)-pristenoyl-CoA + H2O2 O2 + tetracosanoyl-CoA = (2E)-tetracosenoyl-CoA + H2O2 hexadecanoyl-CoA + O2 = (2E)-hexadecenoyl-CoA + H2O2 hexadecanedioyl-CoA + O2 = (2E)-hexadecenedi... |
Q80UQ0 | MGSLPEEKDSALWSDTPKGPLSAYRARASFNSGELLLFWDGQDVIHFKKTIFSTLENDPLFARSYGADLPLEKLRELNFLRCKRVFEYGFFKVEELLKNPLKILVLINCLGMYDWSLANKCVLHMLVFGTTVFVSGSEKHFKYLEKIYSLEIFGCFALTELSHGSNTKAMRTTAHYDPDTQEFILHSPDFEAAKFWVGNLGKTATHAVVFAQLYMPDGQCHGLHSFLVQIRDTKTLLPMTGVMVGDIGKKLGQNGLDNGFAMFNKVRIPRQNLLDRTGNITSEGTYNSPFKDVRQRLGASLGSLSSGRISIISMSVVNLK... | Oxidizes the CoA-esters of 2-methyl-branched fatty acids. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 (2S)-pristanoyl-CoA + O2 = (2E)-pristenoyl-CoA + H2O2 O2 + tetracosanoyl-CoA = (2E)-tetracosenoyl-CoA + H2O2 hexadecanoyl-CoA + O2 = (2E)-hexadecenoyl-CoA + H2O2 hexadecanedioyl-CoA + O2 = (2E)-hexadecenedi... |
Q5RAU0 | MASTVEGGDTALLPEFPGGPLDAYRARASFSWKELALFTEGEDMLRFKKTIFSALENDPLFARSPGADLSLEKYRELNFLRCRRIFEYDFLSVEDMFKSPLKVLTLIQCLGMYDSSLAAKYLIHSLVFGSAIYSSGSERHLTYIQKIFRMEIFGCFALTELSHGSNTKAIRTTAHYDPATEEFIIHSPDFEAAKFWVGNMGKTATHAVVFAKLYVPGDQCHGLHPFIVQIRDSKTLLPMPGVMVGDIGKKLGQNGLDNGFAMFHKVRVPRQSLLNRMGDVTPEGTYVSSFKDVRQHFGATLGSLSWSRVSIVSLAILNLK... | Oxidizes the CoA-esters of 2-methyl-branched fatty acids. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 (2S)-pristanoyl-CoA + O2 = (2E)-pristenoyl-CoA + H2O2 O2 + tetracosanoyl-CoA = (2E)-tetracosenoyl-CoA + H2O2 hexadecanoyl-CoA + O2 = (2E)-hexadecenoyl-CoA + H2O2 hexadecanedioyl-CoA + O2 = (2E)-hexadecenedi... |
Q63448 | MGSSSERRDSVLWSDIPKGPLSAYRARASFNSKELMLFWDGQDVLDFKKTIFSTLENDPLFARPFGADLPLEKERELNFLRCKRVFEYGFFNAEDMLKNPLKILVLMNCLGMYDWSLANKCVLHMLVFGSTIIGSGSEHHFKYLEKIYNLEIFGCFALTELSHGSNTKAMRTTAHYDPATQEFILHSPDFEAAKFWVGNLGKTATHAVVFAQLYTPDGQCRGLHSFLVQIRDPKTLLPMPGVMVGDMGKKLGQNGLDNGFAMFHKVRIPRQNLLDRTGNVTSEGHYHTPFKDVRQRLGASLGSLSSGRISIISISVVNLK... | Oxidizes the CoA-esters of 2-methyl-branched fatty acids. a 2,3-saturated acyl-CoA + O2 = a (2E)-enoyl-CoA + H2O2 (2S)-pristanoyl-CoA + O2 = (2E)-pristenoyl-CoA + H2O2 O2 + tetracosanoyl-CoA = (2E)-tetracosenoyl-CoA + H2O2 hexadecanoyl-CoA + O2 = (2E)-hexadecenoyl-CoA + H2O2 hexadecanedioyl-CoA + O2 = (2E)-hexadecenedi... |
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