{"ymdb_id":"YMDB16118","created_at":"2016-09-12T18:12:40.000Z","updated_at":"2016-10-17T22:34:41.000Z","name":"Hydrogen carbonate","cas":null,"state":"Solid","melting_point":null,"description":null,"experimental_water_solubility":null,"experimental_logp_hydrophobicity":null,"location":null,"synthesis_reference":null,"chebi_id":null,"hmdb_id":null,"kegg_id":null,"pubchem_id":null,"cs_id":null,"foodb_id":null,"wikipedia_link":null,"biocyc_id":null,"iupac":"carbonic acid","traditional_iupac":"carbonic acid","logp":"0.25005136566666664","pka":"10.638414228618222","alogps_solubility":"2.31e+02 g/l","alogps_logp":"0.60","alogps_logs":"0.57","acceptor_count":"3","donor_count":"2","rotatable_bond_count":"0","polar_surface_area":"57.53","refractivity":"9.4982","polarizability":"4.2300133967078954","formal_charge":"0","physiological_charge":"-1","pka_strongest_basic":null,"pka_strongest_acidic":"6.052541895520343","bioavailability":"1","number_of_rings":"0","rule_of_five":"1","ghose_filter":"0","veber_rule":"0","mddr_like_rule":"0","synonyms":[],"pathways":[{"name":"Citric Acid Cycle","kegg_map_id":null},{"name":"Citric Acid Cycle 1434561204","kegg_map_id":null},{"name":"Pyruvate metabolism","kegg_map_id":"00620"},{"name":"TCA Cycle","kegg_map_id":null},{"name":"purine nucleotides de novo biosynthesis","kegg_map_id":null},{"name":"Pyrimidine metabolism","kegg_map_id":"00240"}],"growth_conditions":[],"references":[],"proteins":[{"created_at":"2011-05-24T19:28:29.000Z","updated_at":"2011-07-22T17:54:22.000Z","name":"Protein URA1","uniprot_id":"P07259","uniprot_name":"PYR1_YEAST","enzyme":true,"transporter":false,"gene_name":"URA2","num_residues":2214,"molecular_weight":"245124.0","theoretical_pi":"5.64","general_function":"Involved in carboxyl- or carbamoyltransferase activity","specific_function":"This protein is a \"fusion\" protein encoding three enzymatic activities of the pyrimidine pathway (GATase, CPSase, and ATCase)","reactions":[{"id":1332,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":1365,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2254,"direction":"\u003e","locations":"Cytoplasm","altext":"2 ATP + L-glutamine + HCO(3)(-) + H(2)O = 2 ADP + phosphate + L-glutamate + carbamoyl phosphate.","export":false,"pw_reaction_id":null,"source":null},{"id":2256,"direction":"\u003e","locations":null,"altext":"Carbamoyl phosphate + L-aspartate = phosphate + N-carbamoyl-L-aspartate.","export":false,"pw_reaction_id":null,"source":null},{"id":3739,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006264","source":"Smpdb"},{"id":14248,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006692","source":"Smpdb"},{"id":14248,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006692","source":"Smpdb"},{"id":14249,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006733","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":null,"genbank_gene_id":"M27174","genbank_protein_id":"173146","gene_card_id":"URA2","chromosome_location":"chromosome 10","locus":"YJL130C","synonyms":["Glutamine-dependent carbamoyl-phosphate synthase","Aspartate carbamoyltransferase"],"enzyme_classes":["6.3.5.5","2.1.3.2"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" amino acid binding"},{"category":"Function","description":" transferase activity, transferring one-carbon groups"},{"category":"Function","description":" carboxyl- or carbamoyltransferase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" nucleoside binding"},{"category":"Function","description":" purine nucleoside binding"},{"category":"Function","description":" adenyl nucleotide binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" carbamoyl-phosphate synthase activity"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" aspartate carbamoyltransferase activity"},{"category":"Function","description":" ligase activity, forming carbon-nitrogen bonds"},{"category":"Function","description":" carboxylic acid binding"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular aromatic compound metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" nucleobase metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"},{"category":"Process","description":" pyrimidine base metabolic process"},{"category":"Process","description":" glutamine family amino acid metabolic process"},{"category":"Process","description":" pyrimidine base biosynthetic process"},{"category":"Process","description":" glutamine metabolic process"},{"category":"Process","description":" 'de novo' pyrimidine base biosynthetic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" nitrogen compound metabolic process"}],"pfams":[{"name":"GATase","identifier":"PF00117"},{"name":"CPSase_sm_chain","identifier":"PF00988"},{"name":"CPSase_L_chain","identifier":"PF00289"},{"name":"CPSase_L_D2","identifier":"PF02786"},{"name":"CPSase_L_D3","identifier":"PF02787"},{"name":"MGS","identifier":"PF02142"},{"name":"OTCace","identifier":"PF00185"},{"name":"OTCace_N","identifier":"PF02729"}],"pathways":[{"name":"Pyrimidine metabolism","kegg_map_id":"00240"},{"name":"Alanine, aspartate and glutamate metabolism","kegg_map_id":"00250"}],"gene_sequence":"ATGGCCACTATTGCTCCCACTGCTCCAATCACCCCTCCAATGGAATCTACGGGTGACCGTCTGGTTACGTTGGAACTTAAGGACGGCACGGTCTTACAAGGTTATTCATTTGGTGCTGAGAAATCCGTCGCTGGTGAATTAGTTTTCCAAACTGGTATGGTTGGTTATCCTGAATCTGTGACCGATCCATCTTATGAAGGCCAGATCTTAGTCATCACTTACCCATTGGTAGGCAATTATGGTGTCCCAGATATGCACTTGAGAGATGAATTGGTCGAAGAATTGCCAAGATATTTTGAAAGTAATAGAATCCATATTGCCGGTTTAGTTATTTCTCACTATACCGACGAGTACTCTCATTATCTTGCTAAATCTTCCTTAGGTAAATGGTTACAAAATGAAGGGATCCCAGCTGTTTATGGTGTTGATACAAGATCATTGACCAAGCATTTGAGAGATGCAGGTTCAATGTTGGGTAGGTTGTCTTTGGAAAAAAGCGGCTCTGACAGAACCATCTCCAGATCTTCCTCTTGGAGAAGTGCGTTTGATGTTCCTGAATGGGTGGATCCAAATGTTCAAAACCTAGTTTCTAAGGTCTCCATCAATGAACCTAAATTGTACGTTCCTCCAGCAGACAATAAGCACATCGAATTGCAAACCGGACCCGATGGTAAAGTTTTAAGGATTCTAGCCATTGACGTGGGTATGAAATACAATCAAATTCGTTGTTTTATCAAAAGGGGTGTAGAATTGAAAGTTGTTCCATGGAACTACGATTTCACTAAAGAAGATTATGATGGTCTGTTTATTTCAAATGGTCCAGGTGATCCATCTGTTCTAGATGATCTATCTCAAAGATTGTCAAATGTCCTGGAGGCTAAAAAGACGCCAGTATTCGGTATTTGTCTCGGTCATCAATTGATAGCAAGAGCTGCCGGTGCATCCACCCTAAAACTAAAATTTGGTAACCGTGGTCATAACATACCTTGTACATCAACTATAAGTGGTCGTTGTTACATAACATCTCAAAACCATGGGTTCGCTGTGGATGTTGACACTCTAACTTCCGGATGGAAGCCATTGTTTGTTAACGCGAATGATGACTCTAACGAAGGTATCTATCATTCTGAATTACCTTATTTTTCCGTCCAATTCCATCCAGAATCCACACCTGGCCCAAGAGATACAGAATTCTTGTTTGACGTTTTTATCCAAGCAGTTAAAGAATTCAAGTATACACAAGTGTTGAAACCAATCGCTTTCCCAGGTGGCCTATTAGAGGATAACGTTAAGGCACACCCTAGAATCGAAGCGAAGAAGGTTCTAGTTCTCGGTTCTGGTGGTTTGTCCATCGGTCAAGCTGGTGAATTTGACTACTCTGGTTCTCAAGCCATCAAAGCTTTGAAAGAAGAAGGTATCTATACAATTTTAATTAATCCAAACATTGCTACCATCCAAACTTCGAAAGGGTTGGCTGATAAGGTTTATTTTGTTCCTGTTACTGCAGAGTTCGTGAGAAAAGTTATTTTACATGAAAGGCCGGACGCCATTTATGTGACATTTGGTGGACAAACTGCTTTATCTGTTGGTATAGCCATGAAAGATGAATTTGAGGCGTTAGGAGTTAAAGTATTGGGTACTCCAATCGATACTATTATTACCACGGAAGACCGTGAACTCTTCAGTAATGCCATTGACGAAATTAATGAAAAATGTGCGAAATCTCAAGCTGCTAATTCAGTGGACGAGGCATTGGCCGCTGTCAAGGAGATCGGTTTCCCAGTTATTGTACGTGCTGCATATGCATTGGGAGGTTTAGGTTCCGGTTTCGCTAATAATGAAAAAGAATTGGTTGATCTATGTAATGTTGCATTTTCATCCTCACCTCAAGTTTTAGTCGAGAAATCTATGAAAGGTTGGAAAGAAGTCGAATATGAAGTTGTTCGTGATGCTTTTGACAACTGTATTACTGTTTGTAATATGGAAAATTTTGATCCACTAGGTATTCACACCGGTGATTCCATCGTTGTAGCCCCATCTCAAACTTTATCTGATGAAGATTACAATATGTTAAGAACTACTGCTGTTAATGTTATTAGACACTTAGGTGTTGTTGGTGAATGTAATATCCAATATGCTTTAAATCCCGTTTCTAAGGATTATTGCATCATTGAAGTTAATGCGCGTTTGTCACGTTCCTCTGCTTTAGCTTCTAAGGCTACTGGTTACCCATTGGCCTACACTGCGGCTAAGTTAGGTTTGAATATCCCATTAAATGAAGTTAAGAATTCCGTCACAAAATCCACATGTGCTTGTTTTGAACCTTCTCTAGACTACTGTGTTGTCAAAATGCCAAGATGGGATTTGAAGAAGTTCACCAGAGTTTCTACCGAATTATCTTCATCAATGAAATCTGTTGGTGAAGTTATGAGCATCGGTAGAACCTTCGAAGAAGCTATTCAAAAAGCTATCAGATCCACAGAATATGCTAACCTCGGATTCAATGAGACAGATCTAGATATCGACATTGATTACGAGTTGAACAACCCTACGGATATGCGTGTCTTCGCCATTGCAAATGCTTTTGCTAAGAAGGGATATTCTGTTGATAAAGTCTGGGAAATGACTAGAATTGATAAGTGGTTTTTAAACAAACTGCACGATTTGGTCCAATTTGCTGAGAAAATTAGTTCATTTGGTACTAAAGAGGAATTACCTTCCTTAGTTTTAAGACAGGCTAAGCAGTTAGGTTTTGATGACAGACAGATTGCAAGATTTTTGGATTCCAACGAAGTTGCCATCCGTAGATTAAGAAAAGAATATGGAATTACACCATTTGTCAAACAAATTGATACAGTTGCCGCTGAATTCCCCGCTTACACGAACTATTTATACATGACATACAATGCTGACTCACACGATTTATCCTTTGATGACCACGGTGTTATGGTCTTGGGTTCTGGTGTTTACCGTATCGGTTCTTCTGTCGAATTTGATTGGTGTGCTGTTACTGCAGTTAGAACATTACGTGCCAACAATATCAAAACTATCATGGTCAACTATAATCCAGAAACTGTTTCCACAGATTATGATGAGGCTGATAGACTATACTTTGAAACCATCAACCTTGAAAGAGTTTTGGATATTTACGAGATTGAAAACTCAAGCGGTGTTGTCGTATCAATGGGTGGTCAAACTTCCAACAACATCGCCATGACTTTACATCGTGAAAATGTAAAGATTCTTGGTACATCCCCTGACATGATTGATTCTGCTGAAAACCGTTACAAGTTCTCTCGTATGTTGGATCAAATTGGTGTTGACCAACCAGCTTGGAAAGAATTGACATCCATGGACGAAGCTGAATCTTTTGCCGAAAAGGTGGGTTATCCAGTTTTGGTACGTCCATCTTATGTGTTATCCGGTGCCGCCATGAATACTGTTTATTCTAAAAACGATTTGGAATCCTACTTAAACCAAGCCGTCGAAGTTTCACGTGATTATCCTGTTGTTATCACTAAATATATTGAAAACGCAAAGGAGATTGAAATGGATGCAGTTGCAAGAAATGGTGAATTGGTTATGCATGTTGTCTCTGAGCATGTTGAAAATGCAGGTGTCCACTCGGGTGATGCAACATTAATCGTTCCACCTCAAGATTTGGCTCCTGAAACTGTGGATAGAATTGTTGTCGCCACTGCTAAAATTGGTAAGGCTTTGAAAATTACAGGTCCATACAACATCCAATTCATTGCAAAGGACAATGAAATCAAGGTCATAGAATGTAATGTTCGTGCTTCGAGATCTTTCCCATTCATTTCAAAGGTTGTTGGCGTCAATCTGATTGAATTGGCAACAAAGGCCATAATGGGTTTGCCTTTGACGCCTTATCCTGTTGAAAAATTACCAGATGATTATGTCGCCGTTAAAGTACCACAATTCTCTTTCCCACGTTTAGCAGGAGCTGATCCAGTCTTAGGTGTTGAAATGGCCTCTACTGGTGAAGTCGCTACTTTTGGCCACTCGAAGTATGAAGCATACTTAAAGTCTTTGTTGGCAACCGGCTTCAAACTTCCAAAGAAGAATATTTTATTGTCTATTGGTTCTTACAAGGAAAAACAAGAATTGCTTTCTTCCGTACAAAAACTATACAACATGGGATATAAATTATTTGCAACATCAGGTACTGCTGACTTTTTATCTGAACATGGTATTGCCGTCCAATATCTGGAGGTTTTAAACAAGGATGATGATGATCAAAAATCAGAATACTCACTTACTCAACATTTGGCTAATAATGAAATTGACCTTTACATCAACTTGCCTTCTGCCAACAGGTTCCGTCGTCCTGCATCCTATGTTTCAAAGGGGTATAAAACACGTCGTTTGGCTGTCGATTATTCGGTTCCGTTGGTTACTAACGTTAAATGTGCAAAATTGTTGATTGAAGCCATTTCAAGAAATATCACTTTAGATGTTTCTGAACGTGATGCACAAACTTCCCACAGAACTATTACCTTACCTGGTTTAATCAATATCGCAACTTATGTTCCGAATGCATCCCATGTTATCAAAGGCCCAGCTGAACTGAAGGAGACCACACGTCTATTTTTGGAATCCGGTTTTACATACTGTCAATTGATGCCCAGATCCATCAGCGGACCTGTTATTACTGACGTTGCATCCTTGAAGGCCGCAAACTCTGTTTCCCAAGATTCATCTTACACTGACTTTTCTTTCACTATTGCTGGTACAGCACACAATGCTCATAGTGTTACGCAATCTGCTAGCAAAGTGACAGCATTGTTTTTGCCCCTACGTGAATTAAAGAACAAGATCACAGCAGTAGCTGAACTTCTGAATCAGTGGCCAACTGAAAAGCAAGTGATTGCAGAAGCTAAAACTGCAGATTTGGCATCGGTTTTATTGTTAACCTCCCTTCAAAACAGATCTATTCACATTACTGGTGTTTCGAATAAGGAAGATTTAGCTTTGATCATGACGGTCAAGGCAAAAGACCCTAGAGTGACTTGTGATGTCAATATTTATTCTTTGTTTATTGCCCAAGATGACTATCCGGAGGCAGTTTTCTTGCCTACTAAGGAAGATCAAGAGTTTTTCTGGAACAACCTTGATAGTATCGATGCTTTCTCTGTCGGTGCTCTTCCTGTCGCCTTGGCAAATGTCACAGGTAACAAGGTTGATGTTGGTATGGGTATCAAAGATTCATTACCACTATTGTTGGCTGCTGTTGAAGAAGGTAAATTAACCATTGATGATATCGTCCTTCGTCTGCATGACAATCCCGCTAAAATTTTCAACATCCCTACTCAGGACTCAGTTGTCGAAATTGATTTGGATTATTCTTTCAGACGTAATAAGAGATGGTCACCATTCAACAAAGATATGAACGGTGGTATTGAGCGTGTTGTCTATAATGGCGAAACATTAGTTTTGAGCGGTGAATTAGTTTCACCAGGCGCCAAAGGAAAATGCATTGTTAATCCAAGTCCAGCTTCCATAACTGCTTCCGCAGAGCTCCAATCTACTAGTGCTAAAAGAAGGTTCTCGATCACGGAAGAAGCAATCGCTGATAATTTAGATGCCGCGGAGGATGCAATTCCAGAACAGCCTTTGGAACAAAAATTGATGTCTTCAAGGCCACCAAGAGAACTTGTTGCTCCAGGCGCCATCCAGAATTTGATCCGTAGTAACAATCCATTCCGCGGAAGACATATATTGTCTATCAAACAATTCAAACGTTCTGATTTCCATGTGTTGTTTGCTGTTGCACAAGAACTAAGGGCACGTGTCGCAAGAGAAGGTGTCTTAGATTTAATGAAAGGCCACGTTATTACTACAATTTTCTTTGAACCATCTACTCGTACTTGTTCTTCATTCATTGCTGCTATGGAACGTTTGGGTGGTAGAATTGTAAATGTTAATCCATTGGTGTCTTCTGTCAAGAAAGGTGAAACCCTTCAAGATACTATCAGAACTTTGGCTTGTTACAGTGATGCCATTGTCATGCGTCATTCAGAAGAAATGTCTGTTCATATCGCCGCTAAATATTCTCCTGTTCCAATTATTAATGGTGGTAATGGTTCTCGCGAGCATCCTACGCAGGCCTTCTTGGATTTGTTTACGATTCGTGAAGAAATCGGTACTGTTAATGGTATTACTGTTACTTTCATGGGTGATCTCAAACATGGTAGAACCGTACATTCATTGTGTCGTTTGTTAATGCACTATCAAGTCAGAATTAATCTTGTTTCTCCTCCGGAATTGAGGTTACCAGAAGGATTAAGAGAAGAGCTAAGAAAAGCTGGCTTACTTGGTGTTGAGAGCATTGAATTAACCCCTCATATCATCTCAAAGACCGATGTTCTGTATTGTACAAGGGTCCAAGAAGAAAGATTCAATAGCCCTGAAGAATATGCACGTCTGAAGGATACTTATATCGTGGACAACAAGATCTTGGCACACGCCAAAGAAAATATGGCTATCATGCATCCATTGCCTCGTGTAAATGAAATCAAAGAGGAAGTGGACTACGATCATCGTGCTGCTTACTTCAGACAAATGAAGTATGGTTTGTTCGTCAGAATGGCTTTGTTGGCCATGGTCATGGGTGTTGATATGTGA","protein_sequence":"MATIAPTAPITPPMESTGDRLVTLELKDGTVLQGYSFGAEKSVAGELVFQTGMVGYPESVTDPSYEGQILVITYPLVGNYGVPDMHLRDELVEELPRYFESNRIHIAGLVISHYTDEYSHYLRKSSLGKWLQNEGIPAVYGVDTRSLTKHLRDAGSMLGRLSLEKSGSDRTISRSSSWRSAFDVPEWVDPNVQNLVSKVSINEPKLYVPPADNKHIELQTGPDGKVLRILAIDVGMKYNQIRCFIKRGVELKVVPWNYDFTKEDYDGLFISNGPGDPSVLDDLSQRLSNVLEAKKTPVFGICLGHQLIARAAGASTLKLKFGNRGHNIPCTSTISGRCYITSQNHGFAVDVDTLTSGWKPLFVNANDDSNEGIYHSELPYFSVQFHPESTPGPRDTEFLFDVFIQAVKEFKYTQVLKPIAFPGGLLEDNVKAHPRIEAKKVLVLGSGGLSIGQAGEFDYSGSQAIKALKEEGIYTILINPNIATIQTSKGLADKVYFVPVTAEFVRKVILHERPDAIYVTFGGQTALSVGIAMKDEFEALGVKVLGTPIDTIITTEDRELFSNAIDEINEKCAKSQAANSVDEALAAVKEIGFPVIVRAAYALGGLGSGFANNEKELVDLCNVAFSSSPQVLVEKSMKGWKEVEYEVVRDAFDNCITVCNMENFDPLGIHTGDSIVVAPSQTLSDEDYNMLRTTAVNVIRHLGVVGECNIQYALNPVSKDYCIIEVNARLSRSSALASKATGYPLAYTAAKLGLNIPLNEVKNSVTKSTCACFEPSLDYCVVKMPRWDLKKFTRVSTELSSSMKSVGEVMSIGRTFEEAIQKAIRSTEYANLGFNETDLDIDIDYELNNPTDMRVFAIANAFAKKGYSVDKVWEMTRIDKWFLNKLHDLVQFAEKISSFGTKEELPSLVLRQAKQLGFDDRQIARFLDSNEVAIRRLRKEYGITPFVKQIDTVAAEFPAYTNYLYMTYNADSHDLSFDDHGVMVLGSGVYRIGSSVEFDWCAVTAVRTLRANNIKTIMVNYNPETVSTDYDEADRLYFETINLERVLDIYEIENSSGVVVSMGGQTSNNIAMTLHRENVKILGTSPDMIDSAENRYKFSRMLDQIGVDQPAWKELTSMDEAESFAEKVGYPVLVRPSYVLSGAAMNTVYSKNDLESYLNQAVEVSRDYPVVITKYIENAKEIEMDAVARNGELVMHVVSEHVENAGVHSGDATLIVPPQDLAPETVDRIVVATAKIGKALKITGPYNIQFIAKDNEIKVIECNVRASRSFPFISKVVGVNLIELATKAIMGLPLTPYPVEKLPDDYVAVKVPQFSFPRLAGADPVLGVEMASTGEVATFGHSKYEAYLKSLLATGFKLPKKNILLSIGSYKEKQELLSSVQKLYNMGYKLFATSGTADFLSEHGIAVQYLEVLNKDDDDQKSEYSLTQHLANNEIDLYINLPSANRFRRPASYVSKGYKTRRLAVDYSVPLVTNVKCAKLLIEAISRNITLDVSERDAQTSHRTITLPGLINIATYVPNASHVIKGPAELKETTRLFLESGFTYCQLMPRSISGPVITDVASLKAANSVSQDSSYTDFSFTIAGTAHNAHSVTQSASKVTALFLPLRELKNKITAVAELLNQWPTEKQVIAEAKTADLASVLLLTSLQNRSIHITGVSNKEDLALIMTVKAKDPRVTCDVNIYSLFIAQDDYPEAVFLPTKEDQEFFWNNLDSIDAFSVGALPVALANVTGNKVDVGMGIKDSLPLLLAAVEEGKLTIDDIVLRLHDNPAKIFNIPTQDSVVEIDLDYSFRRNKRWSPFNKDMNGGIERVVYNGETLVLSGELVSPGAKGKCIVNPSPASITASAELQSTSAKRRFSITEEAIADNLDAAEDAIPEQPLEQKLMSSRPPRELVAPGAIQNLIRSNNPFRGRHILSIKQFKRSDFHVLFAVAQELRAAVAREGVLDLMKGHVITTIFFEPSTRTCSSFIAAMERLGGRIVNVNPLVSSVKKGETLQDTIRTLACYSDAIVMRHSEEMSVHIAAKYSPVPIINGGNGSREHPTQAFLDLFTIREEIGTVNGITVTFMGDLKHGRTVHSLCRLLMHYQVRINLVSPPELRLPEGLREELRKAGLLGVESIELTPHIISKTDVLYCTRVQEERFNSPEEYARLKDTYIVDNKILAHAKENMAIMHPLPRVNEIKEEVDYDHRAAYFRQMKYGLFVRMALLAMVMGVDM"},{"created_at":"2011-05-26T20:23:56.000Z","updated_at":"2011-05-27T15:01:08.000Z","name":"Pyruvate carboxylase 1","uniprot_id":"P11154","uniprot_name":"PYC1_YEAST","enzyme":true,"transporter":false,"gene_name":"PYC1","num_residues":1178,"molecular_weight":"130098.0","theoretical_pi":"6.15","general_function":"Involved in catalytic activity","specific_function":"Pyruvate carboxylase catalyzes a 2-step reaction, involving the ATP-dependent carboxylation of the covalently attached biotin in the first step and the transfer of the carboxyl group to pyruvate in the second","reactions":[{"id":1932,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2594,"direction":"\u003e","locations":"Cytoplasm","altext":"ATP + pyruvate + HCO(3)(-) = ADP + phosphate + oxaloacetate.","export":false,"pw_reaction_id":null,"source":null},{"id":14121,"direction":"\u003c\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006553","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Cytoplasm","genbank_gene_id":"J03889","genbank_protein_id":"172102","gene_card_id":"PYC1","chromosome_location":"chromosome 7","locus":"YGL062W","synonyms":["Pyruvic carboxylase 1","PCB 1"],"enzyme_classes":["6.4.1.1"],"go_classes":[{"category":"Component","description":" cytoplasm"},{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Function","description":" nucleoside binding"},{"category":"Function","description":" purine nucleoside binding"},{"category":"Function","description":" adenyl nucleotide binding"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" vitamin binding"},{"category":"Function","description":" biotin binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" ligase activity, forming carbon-carbon bonds"},{"category":"Function","description":" binding"},{"category":"Function","description":" pyruvate carboxylase activity"},{"category":"Process","description":" small molecule metabolic process"},{"category":"Process","description":" alcohol metabolic process"},{"category":"Process","description":" monosaccharide metabolic process"},{"category":"Process","description":" hexose metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" glucose metabolic process"},{"category":"Process","description":" gluconeogenesis"}],"pfams":[{"name":"CPSase_L_chain","identifier":"PF00289"},{"name":"CPSase_L_D2","identifier":"PF02786"},{"name":"Biotin_carb_C","identifier":"PF02785"},{"name":"Biotin_lipoyl","identifier":"PF00364"},{"name":"HMGL-like","identifier":"PF00682"},{"name":"PYC_OADA","identifier":"PF02436"}],"pathways":[{"name":"Citrate cycle (TCA cycle)","kegg_map_id":"00020"},{"name":"Pyruvate metabolism","kegg_map_id":"00620"}],"gene_sequence":"ATGTCGCAAAGAAAATTCGCCGGCTTGAGAGATAACTTCAATCTCTTGGGTGAAAAGAACAAAATATTGGTGGCTAATAGAGGAGAAATTCCAATCAGAATTTTTCGTACCGCTCATGAACTGTCTATGCAGACGGTAGCTATATATTCTCATGAAGATCGTCTTTCAACGCACAAACAAAAGGCTGACGAAGCATACGTCATAGGTGAAGTAGGCCAATATACCCCCGTCGGCGCTTATTTGGCCATTGACGAAATCATTTCCATTGCCCAAAAACACCAGGTAGATTTCATCCATCCAGGTTATGGGTTCTTGTCTGAAAATTCGGAATTTGCCGACAAAGTAGTGAAGGCCGGTATCACTTGGATTGGCCCTCCAGCTGAAGTTATTGACTCCGTGGGTGATAAGGTCTCAGCTAGAAACCTGGCAGCAAAAGCTAATGTGCCCACCGTTCCTGGTACACCAGGTCCTATAGAAACTGTAGAGGAAGCACTTGACTTCGTCAATGAATACGGCTACCCGGTGATCATTAAGGCCGCCTTTGGTGGTGGTGGTAGAGGTATGAGAGTCGTTAGAGAAGGTGACGACGTGGCAGATGCCTTTCAACGTGCTACCTCCGAAGCCCGTACTGCCTTCGGTAATGGTACCTGCTTTGTGGAAAGATTCTTGGACAAGCCAAAGCATATTGAAGTTCAATTGTTGGCCGATAACCACGGAAACGTGGTTCATCTTTTCGAAAGAGACTGTTCCGTGCAGAGAAGACACCAAAAGGTTGTCGAAGTGGCCCCAGCAAAGACTTTACCCCGTGAAGTCCGTGACGCCATTTTGACAGATGCAGTTAAATTGGCCAAAGAGTGTGGCTACAGAAATGCGGGTACTGCTGAATTCTTGGTTGATAACCAAAATAGACACTATTTCATTGAAATTAATCCAAGAATCCAAGTGGAACATACCATCACAGAAGAAATTACCGGTATAGATATTGTGGCGGCTCAGATCCAAATTGCGGCAGGTGCCTCTCTACCCCAGCTGGGCCTATTCCAGGACAAAATTACGACTCGTGGCTTTGCCATTCAGTGCCGTATTACCACGGAAGACCCTGCTAAGAACTTCCAACCAGATACCGGTAGAATAGAAGTGTACCGTTCTGCAGGTGGTAATGGTGTTAGACTGGATGGTGGTAACGCCTATGCAGGAACAATAATCTCACCTCATTACGACTCAATGCTGGTCAAATGCTCATGCTCCGGTTCCACCTACGAAATCGTTCGTAGAAAAATGATTCGTGCATTAATCGAGTTCAGAATTAGAGGTGTCAAGACCAACATTCCCTTCCTATTGACTCTTTTGACCAATCCAGTATTTATTGAGGGTACATACTGGGGGACTTTTATTGACGACACCCCACAACTGTTCCAAATGGTTTCATCACAAAACAGGGCCCAAAAACTTTTACATTACCTCGCCGACGTGGCAGACAATGGTTCATCTATCAAGGGTCAAATTGGCTTGCCAAAATTAAAATCAAATCCAAGTGTCCCCCATTTGCACGATGCTCAGGGCAATGTCATCAACGTTACAAAGTCTGCACCACCATCCGGATGGAGGCAAGTGCTACTAGAAAAGGGGCCAGCTGAATTTGCCAGACAAGTTAGACAGTTCAATGGTACTTTATTGATGGACACCACCTGGAGAGACGCTCATCAATCTCTACTTGCAACAAGAGTCAGAACCCACGATTTGGCTACAATCGCTCCAACAACCGCACATGCCCTTGCAGGTGCTTTCGCCTTAGAATGTTGGGGTGGTGCCACATTCGATGTTGCAATGAGATTTTTGCATGAGGATCCATGGCAACGTTTGAGAAAATTAAGATCTCTGGTGCCTAATATTCCATTCCAAATGTTATTGCGTGGTGCCAATGGTGTGGCTTATTCTTCATTGCCTGACAATGCTATTGACCATTTCGTCAAGCAAGCCAAGGATAATAGTGTTGATATATTTAGAGTCTTTGATGCCTTAAATGACTTGGAACAATTGAAGGTCGGTGTAGATGCTGTGAAGAAGGCAGGTGGTGTTGTAGAAGCCACTGTTTGTTTCTCTGGGGATATGCTTCAGCCAGGCAAGAAATACAATTTGGATTACTACTTGGAAATTGCTGAAAAAATTGTCCAAATGGGCACTCATATCCTGGGTATCAAAGATATGGCAGGTACCATGAAGCCAGCAGCTGCCAAACTACTGATTGGATCTTTGAGGGCTAAGTACCCTGATCTCCCAATACATGTTCACACTCACGATTCTGCAGGTACTCGTGTTGCATCAATGACTGCGTGTGCTCTGGCGGGCGCCGATGTCGTTGATGTTGCCATCAACTCAATGTCTGGTTTAACTTCACAACCATCAATCAATGCTCTGTTGGCTTCATTAGAAGGTAATATTGACACTGGTATTAACGTTGAGCATGTCCGTGAACTAGATGCATATTGGGCAGAGATGAGATTGTTATACTCTTGTTTCGAGGCTGACTTGAAGGGCCCAGATCCAGAAGTTTATCAACATGAAATCCCAGGTGGTCAATTGACAAACTTGTTGTTTCAAGCCCAACAATTGGGTCTTGGAGAACAATGGGCCCAAACAAAAAGAGCTTACAGAGAAGCCAATTATTTATTGGGTGATATTGTCAAAGTTACCCCAACTTCGAAGGTCGTTGGTGATCTGGCAAAATTTATGGTCTCCAATAAATTAACTTCCGATGATGTGAGACGCCTGGCTAATTCTTTGGATTTCCCTGACTCTGTTATGGATTTCTTCGAAGGCTTAATCGGCCAACCATATGGTGGGTTCCCAGAACCATTTAGATCAGACGTTTTAAGGAACAAGAGAAGAAAGTTGACTTGTCGTCCAGGCCTGGAACTAGAGCCATTTGATCTCGAAAAAATTAGAGAAGACTTGCAGAATAGATTTGGTGATGTTGATGAGTGCGACGTTGCTTCTTATAACATGTACCCAAGAGTTTATGAAGACTTCCAAAAGATGAGAGAAACGTATGGTGATTTATCTGTATTGCCAACAAGAAGCTTTTTGTCTCCACTAGAGACTGACGAAGAAATTGAAGTTGTAATCGAACAAGGTAAAACGCTAATTATCAAGCTACAGGCTGTGGGTGATTTGAACAAAAAGACCGGTGAAAGAGAAGTTTACTTTGATTTGAATGGTGAAATGAGAAAAATTCGTGTTGCTGACAGATCACAAAAAGTGGAAACTGTTACTAAATCCAAAGCAGACATGCATGATCCATTACACATTGGTGCACCAATGGCAGGTGTCATTGTTGAAGTTAAAGTTCATAAAGGATCACTAATAAAGAAGGGCCAACCTGTAGCCGTATTAAGCGCCATGAAAATGGAAATGATTATATCTTCTCCATCCGATGGACAAGTTAAAGAAGTGTTTGTCTCTGATGGTGAAAATGTGGACTCTTCTGATTTATTAGTTCTATTAGAAGACCAAGTTCCTGTTGAAACTAAGGCATGA","protein_sequence":"MSQRKFAGLRDNFNLLGEKNKILVANRGEIPIRIFRTAHELSMQTVAIYSHEDRLSTHKQKADEAYVIGEVGQYTPVGAYLAIDEIISIAQKHQVDFIHPGYGFLSENSEFADKVVKAGITWIGPPAEVIDSVGDKVSARNLAAKANVPTVPGTPGPIETVEEALDFVNEYGYPVIIKAAFGGGGRGMRVVREGDDVADAFQRATSEARTAFGNGTCFVERFLDKPKHIEVQLLADNHGNVVHLFERDCSVQRRHQKVVEVAPAKTLPREVRDAILTDAVKLAKECGYRNAGTAEFLVDNQNRHYFIEINPRIQVEHTITEEITGIDIVAAQIQIAAGASLPQLGLFQDKITTRGFAIQCRITTEDPAKNFQPDTGRIEVYRSAGGNGVRLDGGNAYAGTIISPHYDSMLVKCSCSGSTYEIVRRKMIRALIEFRIRGVKTNIPFLLTLLTNPVFIEGTYWTTFIDDTPQLFQMVSSQNRAQKLLHYLADVAVNGSSIKGQIGLPKLKSNPSVPHLHDAQGNVINVTKSAPPSGWRQVLLEKGPAEFARQVRQFNGTLLMDTTWRDAHQSLLATRVRTHDLATIAPTTAHALAGRFALECWGGATFDVAMRFLHEDPWERLRKLRSLVPNIPFQMLLRGANGVAYSSLPDNAIDHFVKQAKDNGVDIFRVFDALNDLEQLKVGVDAVKKAGGVVEATVCFSGDMLQPGKKYNLDYYLEIAEKIVQMGTHILGIKDMAGTMKPAAAKLLIGSLRAKYPDLPIHVHTHDSAGTAVASMTACALAGADVVDVAINSMSGLTSQPSINALLASLEGNIDTGINVEHVRELDAYWAEMRLLYSCFEADLKGPDPEVYQHEIPGGQLTNLLFQAQQLGLGEQWAETKRAYREANYLLGDIVKVTPTSKVVGDLAQFMVSNKLTSDDVRRLANSLDFPDSVMDFFEGLIGQPYGGFPEPFRSDVLRNKRRKLTCRPGLELEPFDLEKIREDLQNRFGDVDECDVASYNMYPRVYEDFQKMRETYGDLSVLPTRSFLSPLETDEEIEVVIEQGKTLIIKLQAVGDLNKKTGEREVYFDLNGEMRKIRVADRSQKVETVTKSKADMHDPLHIGAPMAGVIVEVKVHKGSLIKKGQPVAVLSAMKMEMIISSPSDGQVKEVFVSDGENVDSSDLLVLLEDQVPVETKA"},{"created_at":"2011-05-26T21:15:10.000Z","updated_at":"2011-07-22T17:53:54.000Z","name":"Acetyl-CoA carboxylase","uniprot_id":"Q00955","uniprot_name":"ACAC_YEAST","enzyme":true,"transporter":false,"gene_name":"FAS3","num_residues":2233,"molecular_weight":"250351.0","theoretical_pi":"6.21","general_function":"Involved in acetyl-CoA carboxylase activity","specific_function":"Carries out three functions:biotin carboxyl carrier protein, biotin carboxylase and carboxyltransferase","reactions":[{"id":1239,"direction":"\u003c\u003e","locations":"mitochondrion;cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2586,"direction":"\u003e","locations":"Cytoplasm;Mitochondrion","altext":"ATP + acetyl-CoA + HCO(3)(-) = ADP + phosphate + malonyl-CoA.","export":false,"pw_reaction_id":null,"source":null},{"id":2587,"direction":"\u003e","locations":"Cytoplasm;Mitochondrion","altext":"ATP + biotin-[carboxyl-carrier-protein] + CO(2) = ADP + phosphate + carboxy-biotin-[carboxyl-carrier-protein].","export":false,"pw_reaction_id":null,"source":null},{"id":3705,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R003286","source":"Smpdb"},{"id":3706,"direction":"\u003c\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006568","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":"1OD4","cellular_location":"Cytoplasm","genbank_gene_id":"Z71631","genbank_protein_id":"1302498","gene_card_id":"FAS3","chromosome_location":null,"locus":"YNR016C","synonyms":["ACC","Biotin carboxylase"],"enzyme_classes":["6.4.1.2","6.3.4.14"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" nucleoside binding"},{"category":"Function","description":" purine nucleoside binding"},{"category":"Function","description":" adenyl nucleotide binding"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" vitamin binding"},{"category":"Function","description":" biotin binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" ligase activity, forming carbon-carbon bonds"},{"category":"Function","description":" CoA carboxylase activity"},{"category":"Function","description":" acetyl-CoA carboxylase activity"},{"category":"Function","description":" binding"},{"category":"Process","description":" organic acid metabolic process"},{"category":"Process","description":" oxoacid metabolic process"},{"category":"Process","description":" carboxylic acid metabolic process"},{"category":"Process","description":" monocarboxylic acid metabolic process"},{"category":"Process","description":" fatty acid metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" fatty acid biosynthetic process"},{"category":"Process","description":" cellular metabolic process"}],"pfams":[{"name":"CPSase_L_chain","identifier":"PF00289"},{"name":"CPSase_L_D2","identifier":"PF02786"},{"name":"Biotin_carb_C","identifier":"PF02785"},{"name":"Biotin_lipoyl","identifier":"PF00364"},{"name":"ACC_central","identifier":"PF08326"},{"name":"Carboxyl_trans","identifier":"PF01039"}],"pathways":[{"name":"Fatty acid biosynthesis","kegg_map_id":"00061"},{"name":"Pyruvate metabolism","kegg_map_id":"00620"},{"name":"Propanoate metabolism","kegg_map_id":"00640"},{"name":"Citric Acid Cycle 1434561204","kegg_map_id":null},{"name":"TCA Cycle","kegg_map_id":null}],"gene_sequence":"ATGAGCGAAGAAAGCTTATTCGAGTCTTCTCCACAGAAGATGGAGTACGAAATTACAAACTACTCAGAAAGACATACAGAACTTCCAGGTCATTTCATTGGCCTCAATACAGTAGATAAACTAGAGGAGTCCCCGTTAAGGGACTTTGTTAAGAGTCACGGTGGTCACACGGTCATATCCAAGATCCTGATAGCAAATAATGGTATTGCCGCCGTGAAAGAAATTAGATCCGTCAGAAAATGGGCATACGAGACGTTCGGCGATGACAGAACCGTCCAATTCGTCGCCATGGCCACCCCAGAAGATCTGGAGGCCAACGCAGAATATATCCGTATGGCCGATCAATACATTGAAGTGCCAGGTGGTACTAATAATAACAACTACGCTAACGTAGACTTGATCGTAGACATCGCCGAAAGAGCAGACGTAGACGCCGTATGGGCTGGCTGGGGTCACGCCTCCGAGAATCCACTATTGCCTGAAAAATTGTCCCAGTCTAAGAGGAAAGTCATCTTTATTGGGCCTCCAGGTAACGCCATGAGGTCTTTAGGTGATAAAATCTCCTCTACCATTGTCGCTCAAAGTGCTAAAGTCCCATGTATTCCATGGTCTGGTACCGGTGTTGACACCGTTCACGTGGACGAGAAAACCGGTCTGGTCTCTGTCGACGATGACATCTATCAAAAGGGTTGTTGTACCTCTCCTGAAGATGGTTTACAAAAGGCCAAGCGTATTGGTTTTCCTGTCATGATTAAGGCATCCGAAGGTGGTGGTGGTAAAGGTATCAGACAAGTTGAACGTGAAGAAGATTTCATCGCTTTATACCACCAGGCAGCCAACGAAATTCCAGGCTCCCCCATTTTCATCATGAAGTTGGCCGGTAGAGCGCGTCACTTGGAAGTTCAACTGCTAGCAGATCAGTACGGTACAAATATTTCCTTGTTCGGTAGAGACTGTTCCGTTCAGAGACGTCATCAAAAAATTATCGAAGAAGCACCAGTTACAATTGCCAAGGCTGAAACATTTCACGAGATGGAAAAGGCTGCCGTCAGACTGGGGAAACTAGTCGGTTATGTCTCTGCCGGTACCGTGGAGTATCTATATTCTCATGATGATGGAAAATTCTACTTTTTAGAATTGAACCCAAGATTACAAGTCGAGCATCCAACAACGGAAATGGTCTCCGGTGTTAACTTACCTGCAGCTCAATTACAAATCGCTATGGGTATCCCTATGCATAGAATAAGTGACATTAGAACTTTATATGGTATGAATCCTCATTCTGCCTCAGAAATCGATTTCGAATTCAAAACTCAAGATGCCACCAAGAAACAAAGAAGACCTATTCCAAAGGGTCATTGTACCGCTTGTCGTATCACATCAGAAGATCCAAACGATGGATTCAAGCCATCGGGTGGTACTTTGCATGAACTAAACTTCCGTTCTTCCTCTAATGTTTGGGGTTACTTCTCCGTGGGTAACAATGGTAATATTCACTCCTTTTCGGACTCTCAGTTCGGCCATATTTTTGCTTTTGGTGAAAATAGACAAGCTTCCAGGAAACACATGGTTGTTGCCCTGAAGGAATTGTCCATTAGGGGTGATTTCAGAACTACTGTGGAATACTTGATCAAACTTTTGGAAACTGAAGATTTCGAGGATAACACTATTACCACCGGTTGGTTGGACGATTTGATTACTCATAAAATGACCGCTGAAAAGCCTGATCCAACTCTTGCCGTCATTTGCGGTGCCGCTACAAAGGCTTTCTTAGCATCTGAAGAAGCCCGCCACAAGTATATCGAATCCTTACAAAAGGGACAAGTTCTATCTAAAGACCTACTGCAAACTATGTTCCCTGTAGATTTTATCCATGAGGGTAAAAGATACAAGTTCACCGTAGCTAAATCCGGTAATGACCGTTACACATTATTTATCAATGGTTCTAAATGTGATATCATACTGCGTCAACTATCTGATGGTGGTCTTTTGATTGCCATAGGCGGTAAATCGCATACCATCTATTGGAAAGAAGAAGTTGCTGCTACAAGATTATCCGTTGACTCTATGACTACTTTGTTGGAAGTTGAAAACGATCCAACCCAGTTGCGTACTCCATCCCCTGGTAAATTGGTTAAATTCTTGGTGGAAAATGGTGAACACATTATCAAGGGCCAACCATATGCAGAAATTGAAGTTATGAAAATGCAAATGCCTTTGGTTTCTCAAGAAAATGGTATCGTCCAGTTATTAAAGCAACCTGGTTCTACCATTGTTGCAGGTGATATCATGGCTATTATGACTCTTGACGATCCATCCAAGGTCAAGCACGCTCTACCATTTGAAGGTATGCTGCCAGATTTTGGTTCTCCAGTTATCGAAGGAACCAAACCTGCCTATAAATTCAAGTCATTAGTGTCTACTTTGGAAAACATTTTGAAGGGTTATGACAACCAAGTTATTATGAACGCTTCCTTGCAACAATTGATAGAGGTTTTGAGAAATCCAAAACTGCCTTACTCAGAATGGAAACTACACATCTCTGCTTTACATTCAAGATTGCCTGCTAAGCTAGATGAACAAATGGAAGAGTTAGTTGCACGTTCTTTGAGACGTGGTGCTGTTTTCCCAGCTAGACAATTAAGTAAATTGATTGATATGGCCGTGAAGAATCCTGAATACAACCCCGACAAATTGCTGGGCGCCGTCGTGGAACCATTGGCGGATATTGCTCATAAGTACTCTAACGGGTTAGAAGCCCATGAACATTCTATATTTGTCCATTTCTTGGAAGAATATTACGAAGTTGAAAAGTTATTCAATGGTCCAAATGTTCGTGAGGAAAATATCATTCTGAAATTGCGTGATGAAAACCCTAAAGATCTAGATAAAGTTGCGCTAACTGTTTTGTCTCATTCGAAAGTTTCAGCGAAGAATAACCTGATCCTAGCTATCTTGAAACATTATCAACCATTGTGCAAGTTATCTTCTAAAGTTTCTGCCATTTTCTCTACTCCTCTACAACATATTGTTGAACTAGAATCTAAGGCTACCGCTAAGGTCGCTCTACAAGCAAGAGAAATTTTGATTCAAGGCGCTTTACCTTCGGTCAAGGAAAGAACTGAACAAATTGAACATATCTTAAAATCCTCTGTTGTGAAGGTTGCCTATGGCTCATCCAATCCAAAGCGCTCTGAACCAGATTTGAATATCTTGAAGGACTTGATCGATTCTAATTACGTTGTGTTCGATGTTTTACTTCAATTCCTAACCCATCAAGACCCAGTTGTGACTGCTGCAGCTGCTCAAGTCTATATTCGTCGTGCTTATCGTGCTTACACCATAGGAGATATTAGAGTTCACGAAGGTGTCACAGTTCCAATTGTTGAATGGAAATTCCAACTACCTTCAGCTGCGTTCTCCACCTTTCCAACTGTTAAATCTAAAATGGGTATGAACAGGGCTGTTTCTGTTTCAGATTTGTCATATGTTGCAAACAGTCAGTCATCTCCGTTAAGAGAAGGTATTTTGATGGCTGTGGATCATTTAGATGATGTTGATGAAATTTTGTCACAAAGTTTGGAAGTTATTCCTCGTCACCAATCTTCTTCTAACGGACCTGCTCCTGATCGTTCTGGTAGCTCCGCATCGTTGAGTAATGTTGCTAATGTTTGTGTTGCTTCTACAGAAGGTTTCGAATCTGAAGAGGAAATTTTGGTAAGGTTGAGAGAAATTTTGGATTTGAATAAGCAGGAATTAATCAATGCTTCTATCCGTCGTATCACATTTATGTTCGGTTTTAAAGATGGGTCTTATCCAAAGTATTATACTTTTAACGGTCCAAATTATAACGAAAATGAAACAATTCGTCACATTGAGCCGGCTTTGGCCTTCCAACTGGAATTAGGAAGATTGTCCAACTTCAACATTAAACCAATTTTCACTGATAATAGAAACATCCATGTCTACGAAGCTGTTAGTAAGACTTCTCCATTGGATAAGAGATTCTTTACAAGAGGTATTATTAGAACGGGTCATATCCGTGATGACATTTCTATTCAAGAATATCTGACTTCTGAAGCTAACAGATTGATGAGTGATATATTGGATAATTTAGAAGTCACCGACACTTCAAATTCTGATTTGAATCATATCTTCATCAACTTCATTGCGGTGTTTGATATCTCTCCAGAAGATGTCGAAGCCGCCTTCGGTGGTTTCTTAGAAAGATTTGGTAAGAGATTGTTGAGATTGCGTGTTTCTTCTGCCGAAATTAGAATCATCATCAAAGATCCTCAAACAGGTGCCCCAGTACCATTGCGTGCCTTGATCAATAACGTTTCTGGTTATGTTATCAAAACAGAAATGTACACCGAAGTCAAGAACGCAAAAGGTGAATGGGTATTTAAGTCTTTGGGTAAACCTGGATCCATGCATTTAAGACCTATTGCTACTCCTTACCCTGTTAAGGAATGGTTGCAACCAAAACGTTATAAGGCACACTTGATGGGTACCACATATGTCTATGACTTCCCAGAATTATTCCGCCAAGCATCGTCATCCCAATGGAAAAATTTCTCTGCAGATGTTAAGTTAACAGATGATTTCTTTATTTCCAACGAGTTGATTGAAGATGAAAACGGCGAATTAACTGAGGTGGAAAGAGAACCTGGTGCCAACGCTATTGGTATGGTTGCCTTTAAGATTACTGTAAAGACTCCTGAATATCCAAGAGGCCGTCAATTTGTTGTTGTTGCTAACGATATCACATTCAAGATCGGTTCCTTTGGTCCACAAGAAGACGAATTCTTCAATAAGGTTACTGAATATGCTAGAAAGCGTGGTATCCCAAGAATTTACTTGGCTGCAAACTCAGGTGCCAGAATTGGTATGGCTGAAGAGATTGTTCCACTATTTCAAGTTGCATGGAATGATGCTGCCAATCCGGACAAGGGCTTCCAATACTTATACTTAACAAGTGAAGGTATGGAAACTTTAAAGAAATTTGACAAAGAAAATTCTGTTCTCACTGAACGTACTGTTATAAACGGTGAAGAAAGATTTGTCATCAAGACAATTATTGGTTCTGAAGATGGGTTAGGTGTCGAATGTCTACGTGGATCTGGTTTAATTGCTGGTGCAACGTCAAGGGCTTACCACGATATCTTCACTATCACCTTAGTCACTTGTAGATCCGTCGGTATCGGTGCTTATTTGGTTCGTTTGGGTCAAAGAGCTATTCAGGTCGAAGGCCAGCCAATTATTTTAACTGGTGCTCCTGCAATCAACAAAATGCTGGGTAGAGAAGTTTATACTTCTAACTTACAATTGGGTGGTACTCAAATCATGTATAACAACGGTGTTTCACATTTGACTGCTGTTGACGATTTAGCTGGTGTAGAGAAGATTGTTGAATGGATGTCTTATGTTCCAGCCAAGCGTAATATGCCAGTTCCTATCTTGGAAACTAAAGACACATGGGATAGACCAGTTGATTTCACTCCAACTAATGATGAAACTTACGATGTAAGATGGATGATTGAAGGTCGTGAGACTGAAAGTGGATTTGAATATGGTTTGTTTGATAAAGGGTCTTTCTTTGAAACTTTGTCAGGATGGGCCAAAGGTGTTGTCGTTGGTAGAGCCCGTCTTGGTGGTATTCCACTGGGTGTTATTGGTGTTGAAACAAGAACTGTCGAGAACTTGATTCCTGCTGATCCAGCTAATCCAAATAGTGCTGAAACATTAATTCAAGAACCTGGTCAAGTTTGGCATCCAAACTCCGCCTTCAAGACTGCTCAAGCTATCAATGACTTTAACAACGGTGAACAATTGCCAATGATGATTTTGGCCAACTGGAGAGGTTTCTCTGGTGGTCAACGTGATATGTTCAACGAAGTCTTGAAGTATGGTTCGTTTATTGTTGACGCATTGGTGGATTACAAACAACCAATTATTATCTATATCCCACCTACCGGTGAACTAAGAGGTGGTTCATGGGTTGTTGTCGATCCAACTATCAACGCTGACCAAATGGAAATGTATGCCGACGTCAACGCTAGAGCTGGTGTTTTGGAACCACAAGGTATGGTTGGTATCAAGTTCCGTAGAGAAAAATTGCTGGACACCATGAACAGATTGGATGACAAGTACAGAGAATTGAGATCTCAATTATCCAACAAGAGTTTGGCTCCAGAAGTACATCAGCAAATATCCAAGCAATTAGCTGATCGTGAGAGAGAACTATTGCCAATTTACGGACAAATCAGTCTTCAATTTGCTGATTTGCACGATAGGTCTTCACGTATGGTGGCCAAGGGTGTTATTTCTAAGGAACTGGAATGGACCGAGGCACGTCGTTTCTTCTTCTGGAGATTGAGAAGAAGATTGAACGAAGAATATTTGATTAAAAGGTTGAGCCATCAGGTAGGCGAAGCATCAAGATTAGAAAAGATCGCAAGAATTAGATCGTGGTACCCTGCTTCAGTGGACCATGAAGATGATAGGCAAGTCGCAACATGGATTGAAGAAAACTACAAAACTTTGGACGATAAACTAAAGGGTTTGAAATTAGAGTCATTCGCTCAAGACTTAGCTAAAAAGATCAGAAGCGACCATGACAATGCTATTGATGGATTATCTGAAGTTATCAAGATGTTATCTACCGATGATAAAGAAAAATTGTTGAAGACTTTGAAATAA","protein_sequence":"MSEESLFESSPQKMEYEITNYSERHTELPGHFIGLNTVDKLEESPLRDFVKSHGGHTVISKILIANNGIAAVKEIRSVRKWAYETFGDDRTVQFVAMATPEDLEANAEYIRMADQYIEVPGGTNNNNYANVDLIVDIAERADVDAVWAGWGHASENPLLPEKLSQSKRKVIFIGPPGNAMRSLGDKISSTIVAQSAKVPCIPWSGTGVDTVHVDEKTGLVSVDDDIYQKGCCTSPEDGLQKAKRIGFPVMIKASEGGGGKGIRQVEREEDFIALYHQAANEIPGSPIFIMKLAGRARHLEVQLLADQYGTNISLFGRDCSVQRRHQKIIEEAPVTIAKAETFHEMEKAAVRLGKLVGYVSAGTVEYLYSHDDGKFYFLELNPRLQVEHPTTEMVSGVNLPAAQLQIAMGIPMHRISDIRTLYGMNPHSASEIDFEFKTQDATKKQRRPIPKGHCTACRITSEDPNDGFKPSGGTLHELNFRSSSNVWGYFSVGNNGNIHSFSDSQFGHIFAFGENRQASRKHMVVALKELSIRGDFRTTVEYLIKLLETEDFEDNTITTGWLDDLITHKMTAEKPDPTLAVICGAATKAFLASEEARHKYIESLQKGQVLSKDLLQTMFPVDFIHEGKRYKFTVAKSGNDRYTLFINGSKCDIILRQLSDGGLLIAIGGKSHTIYWKEEVAATRLSVDSMTTLLEVENDPTQLRTPSPGKLVKFLVENGEHIIKGQPYAEIEVMKMQMPLVSQENGIVQLLKQPGSTIVAGDIMAIMTLDDPSKVKHALPFEGMLPDFGSPVIEGTKPAYKFKSLVSTLENILKGYDNQVIMNASLQQLIEVLRNPKLPYSEWKLHISALHSRLPAKLDEQMEELVARSLRRGAVFPARQLSKLIDMAVKNPEYNPDKLLGAVVEPLADIAHKYSNGLEAHEHSIFVHFLEEYYEVEKLFNGPNVREENIILKLRDENPKDLDKVALTVLSHSKVSAKNNLILAILKHYQPLCKLSSKVSAIFSTPLQHIVELESKATAKVALQAREILIQGALPSVKERTEQIEHILKSSVVKVAYGSSNPKRSEPDLNILKDLIDSNYVVFDVLLQFLTHQDPVVTAAAAQVYIRRAYRAYTIGDIRVHEGVTVPIVEWKFQLPSAAFSTFPTVKSKMGMNRAVSVSDLSYVANSQSSPLREGILMAVDHLDDVDEILSQSLEVIPRHQSSSNGPAPDRSGSSASLSNVANVCVASTEGFESEEEILVRLREILDLNKQELINASIRRITFMFGFKDGSYPKYYTFNGPNYNENETIRHIEPALAFQLELGRLSNFNIKPIFTDNRNIHVYEAVSKTSPLDKRFFTRGIIRTGHIRDDISIQEYLTSEANRLMSDILDNLEVTDTSNSDLNHIFINFIAVFDISPEDVEAAFGGFLERFGKRLLRLRVSSAEIRIIIKDPQTGAPVPLRALINNVSGYVIKTEMYTEVKNAKGEWVFKSLGKPGSMHLRPIATPYPVKEWLQPKRYKAHLMGTTYVYDFPELFRQASSSQWKNFSADVKLTDDFFISNELIEDENGELTEVEREPGANAIGMVAFKITVKTPEYPRGRQFVVVANDITFKIGSFGPQEDEFFNKVTEYARKRGIPRIYLAANSGARIGMAEEIVPLFQVAWNDAANPDKGFQYLYLTSEGMETLKKFDKENSVLTERTVINGEERFVIKTIIGSEDGLGVECLRGSGLIAGATSRAYHDIFTITLVTCRSVGIGAYLVRLGQRAIQVEGQPIILTGAPAINKMLGREVYTSNLQLGGTQIMYNNGVSHLTAVDDLAGVEKIVEWMSYVPAKRNMPVPILETKDTWDRPVDFTPTNDETYDVRWMIEGRETESGFEYGLFDKGSFFETLSGWAKGVVVGRARLGGIPLGVIGVETRTVENLIPADPANPNSAETLIQEPGQVWHPNSAFKTAQAINDFNNGEQLPMMILANWRGFSGGQRDMFNEVLKYGSFIVDALVDYKQPIIIYIPPTGELRGGSWVVVDPTINADQMEMYADVNARAGVLEPQGMVGIKFRREKLLDTMNRLDDKYRELRSQLSNKSLAPEVHQQISKQLADRERELLPIYGQISLQFADLHDRSSRMVAKGVISKELEWTEARRFFFWRLRRRLNEEYLIKRLSHQVGEASRLEKIARIRSWYPASVDHEDDRQVATWIEENYKTLDDKLKGLKLESFAQDLAKKIRSDHDNAIDGLSEVIKMLSTDDKEKLLKTLK"},{"created_at":"2011-05-27T01:11:54.000Z","updated_at":"2011-05-27T15:01:14.000Z","name":"Pyruvate carboxylase 2","uniprot_id":"P32327","uniprot_name":"PYC2_YEAST","enzyme":true,"transporter":false,"gene_name":"PYC2","num_residues":1180,"molecular_weight":"130166.0","theoretical_pi":"6.47","general_function":"Involved in catalytic activity","specific_function":"Pyruvate carboxylase catalyzes a 2-step reaction, involving the ATP-dependent carboxylation of the covalently attached biotin in the first step and the transfer of the carboxyl group to pyruvate in the second","reactions":[{"id":1932,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2594,"direction":"\u003e","locations":"Cytoplasm","altext":"ATP + pyruvate + HCO(3)(-) = ADP + phosphate + oxaloacetate.","export":false,"pw_reaction_id":null,"source":null},{"id":14121,"direction":"\u003c\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006553","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Cytoplasm","genbank_gene_id":"U35647","genbank_protein_id":"1041735","gene_card_id":"PYC2","chromosome_location":"chromosome 2","locus":"YBR218C","synonyms":["Pyruvic carboxylase 2","PCB 2"],"enzyme_classes":["6.4.1.1"],"go_classes":[{"category":"Component","description":" cytoplasm"},{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Function","description":" nucleoside binding"},{"category":"Function","description":" purine nucleoside binding"},{"category":"Function","description":" adenyl nucleotide binding"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" vitamin binding"},{"category":"Function","description":" biotin binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" ligase activity, forming carbon-carbon bonds"},{"category":"Function","description":" binding"},{"category":"Function","description":" pyruvate carboxylase activity"},{"category":"Process","description":" small molecule metabolic process"},{"category":"Process","description":" alcohol metabolic process"},{"category":"Process","description":" monosaccharide metabolic process"},{"category":"Process","description":" hexose metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" glucose metabolic process"},{"category":"Process","description":" gluconeogenesis"}],"pfams":[{"name":"CPSase_L_chain","identifier":"PF00289"},{"name":"CPSase_L_D2","identifier":"PF02786"},{"name":"Biotin_carb_C","identifier":"PF02785"},{"name":"Biotin_lipoyl","identifier":"PF00364"},{"name":"HMGL-like","identifier":"PF00682"},{"name":"PYC_OADA","identifier":"PF02436"}],"pathways":[{"name":"Citrate cycle (TCA cycle)","kegg_map_id":"00020"},{"name":"Pyruvate metabolism","kegg_map_id":"00620"}],"gene_sequence":"ATGAGCAGTAGCAAGAAATTGGCCGGTCTTAGGGACAATTTCAGTTTGCTCGGCGAAAAGAATAAGATCTTGGTCGCCAATAGAGGTGAAATTCCGATTAGAATTTTTAGATCTGCTCATGAGCTGTCTATGAGAACCATCGCCATATACTCCCATGAGGACCGTCTTTCAATGCACAGGTTGAAGGCGGACGAAGCGTATGTTATCGGGGAGGAGGGCCAGTATACACCTGTGGGTGCTTACTTGGCAATGGACGAGATCATCGAAATTGCAAAGAAGCATAAGGTGGATTTCATCCATCCAGGTTATGGGTTCTTGTCTGAAAATTCGGAATTTGCCGACAAAGTAGTGAAGGCCGGTATCACTTGGATCGGCCCTCCAGCTGAAGTTATTGACTCTGTGGGTGACAAAGTCTCTGCCAGACACTTGGCAGCAAGAGCTAACGTTCCTACCGTTCCCGGTACTCCAGGACCTATCGAAACTGTGCAAGAGGCACTTGACTTCGTTAATGAATACGGCTACCCGGTGATCATTAAGGCCGCCTTTGGTGGTGGTGGTAGAGGTATGAGAGTCGTTAGAGAAGGTGACGACGTGGCAGATGCCTTTCAACGTGCTACCTCCGAAGCCCGTACTGCCTTCGGTAATGGTACCTGCTTTGTGGAAAGATTCTTGGACAAGCCAAAGCATATTGAAGTTCAATTGTTGGCTGATAACCACGGAAACGTGGTTCATCTTTTCGAAAGAGACTGTTCTGTGCAAAGAAGACACCAAAAAGTTGTCGAAGTCGCTCCAGCAAAGACTTTGCCCCGTGAAGTTCGTGACGCTATTTTGACAGATGCTGTTAAATTAGCTAAGGTATGTGGTTACAGAAACGCAGGTACCGCCGAATTCTTGGTTGACAACCAAAACAGACACTATTTCATTGAAATTAATCCAAGAATTCAAGTGGAGCATACCATCACTGAAGAAATCACCGGTATTGACATTGTTTCTGCCCAAATCCAGATTGCCGCAGGTGCCACTTTGACTCAACTAGGTCTATTACAGGATAAAATCACCACCCGTGGGTTTTCCATCCAATGTCGTATTACCACTGAAGATCCCTCTAAGAATTTCCAACCGGATACCGGTCGCCTGGAGGTCTATCGTTCTGCCGGTGGTAATGGTGTGAGATTGGACGGTGGTAACGCTTATGCAGGTGCTACTATCTCGCCTCACTACGACTCAATGCTGGTCAAATGTTCATGCTCTGGTTCTACTTATGAAATCGTCCGTAGGAAGATGATTCGTGCCCTGATCGAATTCAGAATCAGAGGTGTTAAGACCAACATTCCCTTCCTATTGACTCTTTTGACCAATCCAGTTTTTATTGAGGGTACATACTGGACGACTTTTATTGACGACACCCCACAACTGTTCCAAATGGTATCGTCACAAAACAGAGCGCAAAAACTGTTACACTATTTGGCAGACTTGGCAGTTAACGGTTCTTCTATTAAGGGTCAAATTGGCTTGCCAAAACTAAAATCAAATCCAAGTGTCCCCCATTTGCACGATGCTCAGGGCAATGTCATCAACGTTACAAAGTCTGCACCACCATCCGGATGGAGACAAGTGCTACTGGAAAAGGGACCATCTGAATTTGCCAAGCAAGTCAGACAGTTCAATGGTACTCTACTGATGGACACCACCTGGAGAGACGCTCATCAATCTCTACTTGCAACAAGAGTCAGAACCCACGATTTGGCTACAATCGCTCCAACAACCGCACATGCCCTTGCAGGTGCTTTCGCTTTAGAATGTTGGGGTGGTGCTACATTCGACGTTGCAATGAGATTCTTGCATGAGGATCCATGGGAACGTCTGAGAAAATTAAGATCTCTGGTGCCTAATATTCCATTCCAAATGTTATTACGTGGTGCCAACGGTGTGGCTTACTCTTCATTACCTGACAATGCTATTGACCATTTTGTCAAGCAAGCCAAGGATAATGGTGTTGATATATTTAGAGTTTTTGATGCCTTGAATGATTTAGAACAATTAAAAGTTGGTGTGAATGCTGTCAAGAAGGCCGGTGGTGTTGTCGAAGCTACTGTTTGTTACTCTGGTGACATGCTTCAGCCAGGTAAGAAATACAACTTAGACTACTACCTAGAAGTTGTTGAAAAAATAGTTCAAATGGGTACACATATCTTGGGTATTAAGGATATGGCAGGTACTATGAAACCGGCCGCTGCCAAATTATTAATTGGCTCCCTAAGAACCAGATATCCGGATTTACCAATTCATGTTCACAGTCATGACTCCGCAGGTACTGCTGTTGCGTCTATGACTGCATGTGCCCTAGCAGGTGCTGATGTTGTCGATGTAGCTATCAATTCAATGTCGGGCTTAACTTCCCAACCATCAATTAATGCACTGTTGGCTTCATTAGAAGGTAACATTGATACTGGGATTAACGTTGAGCATGTTCGTGAATTAGATGCATACTGGGCCGAAATGAGACTGTTGTATTCTTGTTTCGAGGCCGACTTGAAGGGACCAGATCCAGAAGTTTACCAACATGAAATCCCAGGTGGTCAATTGACTAACTTGTTATTCCAAGCTCAACAACTGGGTCTTGGTGAACAATGGGCTGAAACTAAAAGAGCTTACAGAGAAGCCAATTACCTACTGGGAGATATTGTTAAAGTTACCCCAACTTCTAAGGTTGTCGGTGATTTAGCTCAATTCATGGTTTCTAACAAACTGACTTCCGACGATATTAGACGTTTAGCTAATTCTTTGGACTTTCCTGACTCTGTTATGGACTTTTTTGAAGGTTTAATTGGTCAACCATACGGTGGGTTCCCAGAACCATTAAGATCTGATGTATTGAGAAACAAGAGAAGAAAGTTGACGTGCCGTCCAGGTTTAGAATTAGAACCATTTGATCTCGAAAAAATTAGAGAAGACTTGCAGAACAGATTCGGTGATATTGATGAATGCGATGTTGCTTCTTACAATATGTATCCAAGGGTCTATGAAGATTTCCAAAAGATCAGAGAAACATACGGTGATTTATCAGTTCTACCAACCAAAAATTTCCTAGCACCAGCAGAACCTGATGAAGAAATCGAAGTCACCATCGAACAAGGTAAGACTTTGATTATCAAATTGCAAGCTGTTGGTGACTTAAATAAGAAAACTGGGCAAAGAGAAGTGTATTTTGAATTGAACGGTGAATTAAGAAAGATCAGAGTTGCAGACAAGTCACAAAACATACAATCTGTTGCTAAACCAAAGGCTGATGTCCACGATACTCACCAAATCGGTGCACCAATGGCTGGTGTTATCATAGAAGTTAAAGTACATAAAGGGTCTTTGGTGAAAAAGGGCGAATCGATTGCTGTTTTGAGTGCCATGAAAATGGAAATGGTTGTCTCTTCACCAGCAGATGGTCAAGTTAAAGACGTTTTCATTAAGGATGGTGAAAGTGTTGACGCATCAGATTTGTTGGTTGTCCTAGAAGAAGAAACCCTACCCCCATCCCAAAAAAAGTAA","protein_sequence":"MSSSKKLAGLRDNFSLLGEKNKILVANRGEIPIRIFRSAHELSMRTIAIYSHEDRLSMHRLKADEAYVIGEEGQYTPVGAYLAMDEIIEIAKKHKVDFIHPGYGFLSENSEFADKVVKAGITWIGPPAEVIDSVGDKVSARHLAARANVPTVPGTPGPIETVQEALDFVNEYGYPVIIKAAFGGGGRGMRVVREGDDVADAFQRATSEARTAFGNGTCFVERFLDKPKHIEVQLLADNHGNVVHLFERDCSVQRRHQKVVEVAPAKTLPREVRDAILTDAVKLAKVCGYRNAGTAEFLVDNQNRHYFIEINPRIQVEHTITEEITGIDIVSAQIQIAAGATLTQLGLLQDKITTRGFSIQCRITTEDPSKNFQPDTGRLEVYRSAGGNGVRLDGGNAYAGATISPHYDSMLVKCSCSGSTYEIVRRKMIRALIEFRIRGVKTNIPFLLTLLTNPVFIEGTYWTTFIDDTPQLFQMVSSQNRAQKLLHYLADLAVNGSSIKGQIGLPKLKSNPSVPHLHDAQGNVINVTKSAPPSGWRQVLLEKGPSEFAKQVRQFNGTLLMDTTWRDAHQSLLATRVRTHDLATIAPTTAHALAGAFALECWGGATFDVAMRFLHEDPWERLRKLRSLVPNIPFQMLLRGANGVAYSSLPDNAIDHFVKQAKDNGVDIFRVFDALNDLEQLKVGVNAVKKAGGVVEATVCYSGDMLQPGKKYNLDYYLEVVEKIVQMGTHILGIKDMAGTMKPAAAKLLIGSLRTRYPDLPIHVHSHDSAGTAVASMTACALAGADVVDVAINSMSGLTSQPSINALLASLEGNIDTGINVEHVRELDAYWAEMRLLYSCFEADLKGPDPEVYQHEIPGGQLTNLLFQAQQLGLGEQWAETKRAYREANYLLGDIVKVTPTSKVVGDLAQFMVSNKLTSDDIRRLANSLDFPDSVMDFFEGLIGQPYGGFPEPLRSDVLRNKRRKLTCRPGLELEPFDLEKIREDLQNRFGDIDECDVASYNMYPRVYEDFQKIRETYGDLSVLPTKNFLAPAEPDEEIEVTIEQGKTLIIKLQAVGDLNKKTGQREVYFELNGELRKIRVADKSQNIQSVAKPKADVHDTHQIGAPMAGVIIEVKVHKGSLVKKGESIAVLSAMKMEMVVSSPADGQVKDVFIKDGESVDASDLLVVLEEETLPPSQKK"}]}