{"ymdb_id":"YMDB00016","created_at":"2011-05-29T15:48:47.000Z","updated_at":"2016-10-18T17:11:14.000Z","name":"Glycine","cas":"56-40-6","state":"Solid","melting_point":"262.2 oC","description":"Glycine (abbreviated as Gly or G) is an alpha-amino acid. It is one of the 22 proteinogenic amino acids, i.e., the building blocks of proteins. It is the smallest, simplest amino acid as it lacks any side chain or chirality. It is generally considered a polar amino acid. Glycine is a colourless, sweet-tasting crystalline solid. The principal function of glycine is as a precursor to proteins. It is also a building block to numerous natural products.  Glycine is classified as a glucogenic amino acid, since it can be converted to serine by serine hydroxymethyltransferase, and serine can be converted back to the glycolytic intermediate, 3-phosphoglycerate or to pyruvate by serine/threonine dehydratase. Glycine is degraded via three pathways. The predominant pathway involves the catalysis of glycine cleavage enzyme, the same enzyme also involved in the biosynthesis of glycine. In the second pathway, glycine is degraded in two steps. The first step is the reverse of glycine biosynthesis from serine with serine hydroxymethyl transferase. Serine is then converted to pyruvate by serine dehydratase. In the third pathway, glycine is converted to glyoxylate by D-amino acid oxidase.","experimental_water_solubility":"249 mg/mL at 25 oC [YALKOWSKY,SH \u0026 DANNENFELSER,RM (1992)]","experimental_logp_hydrophobicity":"-3.21 [HANSCH,C ET AL. (1995)]","location":"extracellular;mitochondrion;cytoplasm","synthesis_reference":" Anslow, Winston K.; King, Harold. Synthesis of glycine. Journal of the Chemical Society (1929), 2163-6.","chebi_id":"15428","hmdb_id":"HMDB00123","kegg_id":"C00037","pubchem_id":"750","cs_id":"730","foodb_id":null,"wikipedia_link":"Glycine","biocyc_id":"GLY","iupac":"2-aminoacetic acid","traditional_iupac":"glycine","logp":"-3.409459573132419","pka":null,"alogps_solubility":"5.52e+02 g/l","alogps_logp":"-3.34","alogps_logs":"0.87","acceptor_count":"3","donor_count":"2","rotatable_bond_count":"1","polar_surface_area":"63.31999999999999","refractivity":"16.0034","polarizability":"6.647019971293048","formal_charge":"0","physiological_charge":"0","pka_strongest_basic":"9.240341660583645","pka_strongest_acidic":"2.3074568824727444","bioavailability":"1","number_of_rings":"0","rule_of_five":"1","ghose_filter":"0","veber_rule":"0","mddr_like_rule":"0","synonyms":["2-Aminoacetate","2-Aminoacetic acid","Acid, aminoacetic","Aciport","amino-Acetate","amino-Acetic acid","Aminoacetate","Aminoacetic acid","Aminoessigsaeure","Aminoethanoate","Aminoethanoic acid","Calcium salt glycine","Cobalt salt glycine","Copper salt glycine","G","Glicoamin","Gly","Glycin","Glycine carbonate (1:1), monosodium salt","Glycine carbonate (2:1), monolithium salt","Glycine carbonate (2:1), monopotassium salt","Glycine carbonate (2:1), monosodium salt","Glycine hydrochloride","Glycine hydrochloride (2:1)","Glycine phosphate","Glycine phosphate (1:1)","Glycine sulfate (3:1)","Glycine, calcium salt","Glycine, calcium salt (2:1)","Glycine, cobalt salt","Glycine, copper salt","Glycine, monoammonium salt","Glycine, monopotasssium salt","Glycine, monosodium salt","Glycine, sodium hydrogen carbonate","Glycocoll","Glycolixir","Glycosthene","Glykokoll","Glyzin","Gyn-Hydralin","H2N-CH2-COOH","Hgly","Hydrochloride, glycine","Leimzucker","Monoammonium salt glycine","Monopotasssium salt glycine","Monosodium salt glycine","Padil","Phosphate, glycine","Salt glycine, monoammonium","Salt glycine, monosodium"],"pathways":[{"name":"Purine metabolism","kegg_map_id":"00230"},{"name":"Thiamine metabolism","kegg_map_id":"00730"},{"name":"Lysine degradation","kegg_map_id":"00310"},{"name":"Porphyrin and chlorophyll metabolism","kegg_map_id":"00860"},{"name":"Cyanoamino acid metabolism","kegg_map_id":"00460"},{"name":"Nitrogen metabolism","kegg_map_id":"00910"},{"name":"Glutathione metabolism","kegg_map_id":"00480"},{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"Methane metabolism","kegg_map_id":"00680"},{"name":"One Carbon Pool by Folate I","kegg_map_id":null},{"name":"Porphyrin Metabolism","kegg_map_id":null},{"name":"glycine metabolism","kegg_map_id":null},{"name":"purine nucleotides de novo biosynthesis","kegg_map_id":null},{"name":"serine metabolism","kegg_map_id":null},{"name":"threonine metabolism","kegg_map_id":null}],"growth_conditions":[{"growth_media":"YPD media","concentration":"3279.23077","concentration_units":"\u0026#181;M","error":"65.4359"},{"growth_media":"YPG media","concentration":"1093.07692","concentration_units":"\u0026#181;M","error":"21.71282"},{"growth_media":"SD media","concentration":"2869.3641","concentration_units":"\u0026#181;M","error":"57.40513"},{"growth_media":"SG media","concentration":"1366.42051","concentration_units":"\u0026#181;M","error":"27.3641"},{"growth_media":"M (molasses)","concentration":"3142.41026","concentration_units":"\u0026#181;M","error":"62.75897"},{"growth_media":"MA (molasses)","concentration":"7241.37436","concentration_units":"\u0026#181;M","error":"144.85128"},{"growth_media":"MB (molasses)","concentration":"3005.88718","concentration_units":"\u0026#181;M","error":"60.08205"},{"growth_media":"MAB (molasses)","concentration":"4782.17436","concentration_units":"\u0026#181;M","error":"95.77436"},{"growth_media":"hops, malted barley","concentration":"1732.0","concentration_units":"\u0026#181;M","error":"0.0"},{"growth_media":"YEB media with 0.5 mM glucose","concentration":"1291.0","concentration_units":"\u0026#181;M","error":"65.0"},{"growth_media":"Synthetic medium with 20 g/L glucose","concentration":"780.0","concentration_units":"\u0026#181;M","error":"287.0"},{"growth_media":"Minimal medium supplemented with glucose","concentration":"15000.0","concentration_units":"\u0026#181;M","error":"0.0"},{"growth_media":"Minimal medium  supplemented with ammonium and glucose","concentration":"15000.0","concentration_units":"\u0026#181;M","error":"0.0"},{"growth_media":"Glucose limited aerobic culture","concentration":"2.9","concentration_units":"umol/g DW","error":"0.0"}],"references":[{"pubmed_id":7654310,"citation":"Martinez-Force, E., Benitez, T. (1995). \"Effects of varying media, temperature, and growth rates on the intracellular concentrations of yeast amino acids.\" Biotechnol Prog 11:386-392."},{"pubmed_id":21051339,"citation":"UniProt Consortium (2011). \"Ongoing and future developments at the Universal Protein Resource.\" Nucleic Acids Res 39:D214-D219."},{"pubmed_id":21062828,"citation":"Scheer, M., Grote, A., Chang, A., Schomburg, I., Munaretto, C., Rother, M., Sohngen, C., Stelzer, M., Thiele, J., Schomburg, D. (2011). \"BRENDA, the enzyme information system in 2011.\" Nucleic Acids Res 39:D670-D676."},{"pubmed_id":18846089,"citation":"Herrgard, M. J., Swainston, N., Dobson, P., Dunn, W. B., Arga, K. Y., Arvas, M., Bluthgen, N., Borger, S., Costenoble, R., Heinemann, M., Hucka, M., Le Novere, N., Li, P., Liebermeister, W., Mo, M. L., Oliveira, A. P., Petranovic, D., Pettifer, S., Simeonidis, E., Smallbone, K., Spasic, I., Weichart, D., Brent, R., Broomhead, D. S., Westerhoff, H. V., Kirdar, B., Penttila, M., Klipp, E., Palsson, B. O., Sauer, U., Oliver, S. G., Mendes, P., Nielsen, J., Kell, D. B. (2008). \"A consensus yeast metabolic network reconstruction obtained from a community approach to systems biology.\" Nat Biotechnol 26:1155-1160."},{"pubmed_id":20091413,"citation":"Flynn, N. E., Patyrak, M. E., Seely, J. B., Wu, G. (2010). \"Glycine oxidation and conversion into amino acids in Saccharomyces cerevisiae and Candida albicans.\" Amino Acids 39:605-608."},{"pubmed_id":8234090,"citation":"Chelstowska, A., Rytka, J. (1993). \"[Biosynthesis of heme in yeast Saccharomyces cerevisiae].\" Postepy Biochem 39:173-185."},{"pubmed_id":3933486,"citation":"Takada, Y., Noguchi, T. (1985). \"Characteristics of alanine: glyoxylate aminotransferase from Saccharomyces cerevisiae, a regulatory enzyme in the glyoxylate pathway of glycine and serine biosynthesis from tricarboxylic acid-cycle intermediates.\" Biochem J 231:157-163."},{"pubmed_id":null,"citation":"Alcoholic beverage, beer, regular, all - U.S. Department of Agriculture, Agricultural Research Service. 2010. USDA National Nutrient Database for Standard Reference, Release 23. \u003ca href = http://www.ars.usda.gov/ba/bhnrc/ndl\u003eNutrient Data Laboratory Home Page\u003c/a\u003e"},{"pubmed_id":12584756,"citation":"Hans, M. A., Heinzle, E., Wittmann, C. (2003). \"Free intracellular amino acid pools during autonomous oscillations in Saccharomyces cerevisiae.\" Biotechnol Bioeng 82:143-151."},{"pubmed_id":9573211,"citation":"Schreve, J. L., Sin, J. K., Garrett, J. M. (1998). \"The Saccharomyces cerevisiae YCC5 (YCL025c) gene encodes an amino acid permease, Agp1, which transports asparagine and glutamine.\" J Bacteriol 180:2556-2559."},{"pubmed_id":18687109,"citation":"Nookaew, I., Jewett, M. C., Meechai, A., Thammarongtham, C., Laoteng, K., Cheevadhanarak, S., Nielsen, J., Bhumiratana, S. (2008). \"The genome-scale metabolic model iIN800 of Saccharomyces cerevisiae and its validation: a scaffold to query lipid metabolism.\" BMC Syst Biol 2:71."},{"pubmed_id":8852837,"citation":"McNeil, J. B., Bognar, A. L., Pearlman, R. E. (1996). \"In vivo analysis of folate coenzymes and their compartmentation in Saccharomyces cerevisiae.\" Genetics 142:371-381."},{"pubmed_id":10874035,"citation":"Turner, R. J., Lovato, M., Schimmel, P. (2000). \"One of two genes encoding glycyl-tRNA synthetase in Saccharomyces cerevisiae provides mitochondrial and cytoplasmic functions.\" J Biol Chem 275:27681-27688."},{"pubmed_id":9151955,"citation":"Liu, J. Q., Nagata, S., Dairi, T., Misono, H., Shimizu, S., Yamada, H. (1997). \"The GLY1 gene of Saccharomyces cerevisiae encodes a low-specific L-threonine aldolase that catalyzes cleavage of L-allo-threonine and L-threonine to glycine--expression of the gene in Escherichia coli and purification and characterization of the enzyme.\" Eur J Biochem 245:289-293."},{"pubmed_id":4578278,"citation":"Gancedo, J. M., Gancedo, C. (1973). \"Concentrations of intermediary metabolites in yeast.\" Biochimie 55:205-211."},{"pubmed_id":17439666,"citation":"Castrillo, J. I., Zeef, L. A., Hoyle, D. C., Zhang, N., Hayes, A., Gardner, D. C., Cornell, M. J., Petty, J., Hakes, L., Wardleworth, L., Rash, B., Brown, M., Dunn, W. B., Broadhurst, D., O'Donoghue, K., Hester, S. S., Dunkley, T. P., Hart, S. R., Swainston, N., Li, P., Gaskell, S. J., Paton, N. W., Lilley, K. S., Kell, D. B., Oliver, S. G. (2007). \"Growth control of the eukaryote cell: a systems biology study in yeast.\" J Biol 6:4."}],"proteins":[{"created_at":"2011-05-24T19:37:34.000Z","updated_at":"2011-05-27T14:55:58.000Z","name":"General amino-acid permease GAP1","uniprot_id":"P19145","uniprot_name":"GAP1_YEAST","enzyme":false,"transporter":true,"gene_name":"GAP1","num_residues":602,"molecular_weight":"65654.89844","theoretical_pi":"8.67","general_function":"Involved in transport","specific_function":"Permease for various amino acids as well as for GABA. Can also transport L-cysteine and beta-alanine","reactions":[],"signal_regions":"None","transmembrane_regions":"96-116;122-142;166-185;205-224;238-256;281-298;322-342;377-396;422-442;452-472;492-510;530-548","pdb_id":null,"cellular_location":"Membrane; Multi-pass membrane protein","genbank_gene_id":"AY723840","genbank_protein_id":"51830440","gene_card_id":"GAP1","chromosome_location":"chromosome 11","locus":"YKR039W","synonyms":[],"enzyme_classes":[],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" membrane"},{"category":"Component","description":" membrane part"},{"category":"Component","description":" intrinsic to membrane"},{"category":"Component","description":" integral to membrane"},{"category":"Function","description":" transporter activity"},{"category":"Function","description":" transmembrane transporter activity"},{"category":"Function","description":" active transmembrane transporter activity"},{"category":"Function","description":" amine transmembrane transporter activity"},{"category":"Function","description":" amino acid transmembrane transporter activity"},{"category":"Process","description":" transmembrane transport"},{"category":"Process","description":" establishment of localization"},{"category":"Process","description":" transport"},{"category":"Process","description":" amine transport"},{"category":"Process","description":" amino acid transport"}],"pfams":[{"name":"AA_permease","identifier":"PF00324"}],"pathways":[],"gene_sequence":"ATGAGTAATACTTCTTCGTACGAGAAGAATAATCCAGATAATCTGAAACACAATGGTATTACCATAGATTCTGAGTTTCTAACTCAGGAGCCAATAACCATTCCCTCAAATGGCTCCGCTGTTTCTATTGACGAAACAGGTTCAGGGTCCAAATGGCAAGACTTTAAAGATTCTTTCAAAAGGGTAAAACCTATTGAAGTTGATCCTAATCTTTCAGAAGCTGAAAAAGTGGCTATCATCACTGCCCAAACTCCATTGAAGCACCACTTGAAGAATAGACATTTGCAAATGATTGCCATCGGTGGTGCCATCGGTACTGGTCTGCTGGTTGGGTCAGGTACTGCACTAAGAACAGGTGGTCCCGCTTCGCTACTGATTGGATGGGGGTCTACAGGTACCATGATTTACGCTATGGTTATGGCTCTGGGTGAGTTGGCTGTTATCTTCCCTATTTCGGGTGGGTTCACCACGTACGCTACCAGATTTATTGATGAGTCCTTTGGTTACGCTAATAATTTCAATTATATGTTACAATGGTTGGTTGTGCTACCATTGGAAATTGTCTCTGCATCTATTACTGTAAATTTCTGGGGTACAGATCCAAAGTATAGAGATGGGTTTGTTGCGTTGTTTTGGCTTGCAATTGTTATCATCAATATGTTTGGTGTCAAAGGTTATGGTGAAGCAGAATTCGTCTTTTCATTTATCAAGGTCATCACTGTTGTTGGGTTCATCATCTTAGGTATCATTCTAAACTGTGGTGGTGGTCCAACAGGTGGTTACATTGGGGGCAAGTACTGGCATGATCCTGGTGCCTTTGCTGGTGACACTCCAGGTGCTAAATTCAAAGGTGTTTGTTCTGTCTTCGTCACCGCTGCCTTTTCTTTTGCCGGTTCAGAATTGGTTGGTCTTGCTGCCAGTGAATCCGTAGAGCCTAGAAAGTCCGTTCCTAAGGCTGCTAAACAAGTTTTCTGGAGAATCACCCTATTTTATATTCTGTCGCTATTAATGATTGGTCTTTTAGTCCCATACAACGATAAAAGTTTGATTGGTGCCTCCTCTGTGGATGCTGCTGCTTCACCCTTCGTCATTGCCATTAAGACTCACGGTATCAAGGGTTTGCCAAGTGTTGTCAACGTCGTTATCTTGATTGCCGTGTTATCTGTCGGTAACTCTGCCATTTATGCATGTTCCAGAACAATGGTTGCCCTAGCTGAACAGAGATTTCTGCCAGAAATCTTTTCCTACGTTGACCGTAAGGGTAGACCATTGGTGGGAATTGCTGTCACATCTGCATTCGGTCTTATTGCGTTTGTTGCCGCCTCCAAAAAGGAAGGTGAAGTTTTCAACTGGTTACTAGCCTTGTCTGGGTTGTCATCTCTATTCACATGGGGTGGTATCTGTATTTGTCACATTCGTTTCAGAAAGGCATTGGCCGCCCAAGGAAGAGGCTTGGATGAATTGTCTTTCAAGTCTCCTACCGGTGTTTGGGGTTCCTACTGGGGGTTATTTATGGTTATTATTATGTTCATTGCCCAATTCTACGTTGCCGTATTCCCCGTGGGAGATTCTCCAAGTGCGGAAGGTTTCTTCGAAGCTTATCTATCCTTCCCACTTGTTATGGTTATGTACATCGGACACAAGATCTATAAGAGGAATTGGAAGCTTTTCATCCCAGCAGAAAAGATGGACATTGATACGGGTAGAAGAGAAGTCGATTTAGATTTGTTGAAACAAGAAATTGCAGAAGAAAAGGCAATTATGGCCACAAAGCCAAGATGGTATAGAATCTGGAATTTCTGGTGTTAA","protein_sequence":"MSNTSSYEKNNPDNLKHNGITIDSEFLTQEPITIPSNGSAVSIDETGSGSKWQDFKDSFKRVKPIEVDPNLSEAEKVAIITAQTPLKHHLKNRHLQMIAIGGAIGTGLLVGSGTALRTGGPASLLIGWGSTGTMIYAMVMALGELAVIFPISGGFTTYATRFIDESFGYANNFNYMLQWLVVLPLEIVSASITVNFWGTDPKYRDGFVALFWLAIVIINMFGVKGYGEAEFVFSFIKVITVVGFIILGIILNCGGGPTGGYIGGKYWHDPGAFAGDTPGAKFKGVCSVFVTAAFSFAGSELVGLAASESVEPRKSVPKAAKQVFWRITLFYILSLLMIGLLVPYNDKSLIGASSVDAAASPFVIAIKTHGIKGLPSVVNVVILIAVLSVGNSAIYACSRTMVALAEQRFLPEIFSYVDRKGRPLVGIAVTSAFGLIAFVAASKKEGEVFNWLLALSGLSSLFTWGGICICHIRFRKALAAQGRGLDELSFKSPTGVWGSYWGLFMVIIMFIAQFYVAVFPVGDSPSAEGFFEAYLSFPLVMVMYIGHKIYKRNWKLFIPAEKMDIDTGRREVDLDLLKQEIAEEKAIMATKPRWYRIWNFWC"},{"created_at":"2011-05-24T19:39:43.000Z","updated_at":"2011-05-27T14:55:58.000Z","name":"Dicarboxylic amino acid permease","uniprot_id":"P53388","uniprot_name":"DIP5_YEAST","enzyme":false,"transporter":true,"gene_name":"DIP5","num_residues":608,"molecular_weight":"68096.70313","theoretical_pi":"9.17","general_function":"Involved in transport","specific_function":"Can transport glutamate, aspartate, glutamine, asparagine, serine, alanine and glycine","reactions":[],"signal_regions":"None","transmembrane_regions":"91-111;120-142;157-177;202-222;232-252;286-306;323-343;373-393;424-444;455-475;502-522;531-551","pdb_id":null,"cellular_location":"Membrane; Multi-pass membrane protein","genbank_gene_id":"X95802","genbank_protein_id":"1213234","gene_card_id":"DIP5","chromosome_location":"chromosome 16","locus":"YPL265W","synonyms":[],"enzyme_classes":[],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" membrane"},{"category":"Component","description":" membrane part"},{"category":"Component","description":" intrinsic to membrane"},{"category":"Component","description":" integral to membrane"},{"category":"Function","description":" transporter activity"},{"category":"Function","description":" transmembrane transporter activity"},{"category":"Function","description":" active transmembrane transporter activity"},{"category":"Function","description":" amine transmembrane transporter activity"},{"category":"Function","description":" amino acid transmembrane transporter activity"},{"category":"Process","description":" transmembrane transport"},{"category":"Process","description":" establishment of localization"},{"category":"Process","description":" transport"},{"category":"Process","description":" amine transport"},{"category":"Process","description":" amino acid transport"}],"pfams":[{"name":"AA_permease","identifier":"PF00324"}],"pathways":[],"gene_sequence":"ATGAAGATGCCTCTAAAGAAGATGTTTACCAGCACGTCTCCTCGTAACTCTTCTTCTCTTGACAGTGATCATGACGCTTACTATTCGAAACAAAATCCTGACAATTTCCCTGTAAAGGAGCAAGAAATCTATAACATTGACCTGGAAGAAAACAATGTGTCCTCTCGTTCATCCACCTCTACATCACCTTCAGCAAGGGACGACTCTTTCGCAGTTCCAGATGGTAAAGACGAAAACACGCGGTTGAGGAAAGATTTAAAGGCAAGACATATTTCTATGATCGCCATTGGTGGTTCATTAGGTACAGGTCTGCTTATAGGTACAGGTACCGCCTTATTGACGGGTGGTCCGGTTGCGATGTTAATTGCATATGCCTTTGTCGGCCTTTTAGTCTTTTACACCATGGCCTGTCTTGGTGAAATGGCTTCTTACATTCCATTGGATGGTTTTACAAGTTATGCCTCACGTTACGTGGATCCTGCATTAGGTTTTGCTATTGGTTATACTTACCTTTTCAAATATTTCATCTTACCTCCCAACCAACTTACTGCTGCTGCTTTGGTCATTCAATATTGGATCAGCAGAGACCGTGTTAACCCTGGTGTGTGGATTACTATATTCTTGGTTGTTATTGTCGCTATCAATGTCGTCGGTGTAAAATTCTTTGGTGAATTTGAATTTTGGTTGTCCAGTTTCAAAGTCATGGTAATGTTGGGTCTAATCCTGTTACTATTTATTATTATGCTTGGTGGAGGTCCTAACCATGACCGCCTAGGGTTTAGATACTGGCGTGATCCTGGTGCGTTCAAAGAATATTCGACGGCTATCACTGGTGGTAAAGGTAAATTTGTTTCGTTCGTTGCTGTTTTCGTTTACAGTCTTTTCAGTTACACGGGTATTGAATTGACAGGTATCGTTTGTTCTGAAGCTGAGAATCCAAGAAAAAGTGTTCCAAAGGCAATTAAATTGACAGTTTACCGTATCATTGTTTTTTACCTATGCACCGTTTTCCTTTTGGGTATGTGCGTTGCATACAATGACCCTCGTTTACTTTCCACAAAAGGTAAGAGTATGTCTGCTGCGGCATCTCCATTCGTGGTTGCCATTCAAAACTCAGGTATTGAAGTCTTACCTCATATCTTCAATGCTTGTGTCTTGGTTTTCGTTTTCAGTGCTTGTAACTCAGATTTGTACGTTTCTTCCAGAAATTTATATGCGTTGGCAATTGATGGTAAAGCGCCAAAGATCTTCGCTAAGACAAGTAGATGGGGTGTTCCTTACAATGCTTTAATACTCTCCGTGCTGTTTTGTGGCTTGGCGTACATGAATGTGTCTTCAGGATCAGCAAAGATTTTCAACTACTTTGTTAACGTTGTTTCTATGTTCGGAATCTTGAGTTGGATCACCATTTTAATTGTTTACATCTACTTCGATAAAGCCTGCCGTGCTCAAGGGATTGACAAATCAAAATTTGCTTATGTCGCTCCTGGCCAACGTTATGGTGCTTATTTTGCTTTATTCTTCTGCATTTTGATTGCTTTAATCAAAAACTTCACTGTTTTCCTAGGTCATAAATTTGATTATAAAACATTCATCACCGGGTATATTGGCCTGCCTGTCTATATCATTTCTTGGGCTGGTTACAAATTGATATACAAAACCAAAGTGATAAAGTCTACCGACGTGGATTTGTACACATTTAAGGAAATATACGATAGAGAAGAAGAAGAGGGAAGAATGAAGGACCAAGAAAAGGAAGAGCGTTTAAAAAGTAACGGTAAAAATATGGAGTGGTTCTATGAAAAATTTTTGGGTAATATCTTCTAG","protein_sequence":"MKMPLKKMFTSTSPRNSSSLDSDHDAYYSKQNPDNFPVKEQEIYNIDLEENNVSSRSSTSTSPSARDDSFAVPDGKDENTRLRKDLKARHISMIAIGGSLGTGLLIGTGTALLTGGPVAMLIAYAFVGLLVFYTMACLGEMASYIPLDGFTSYASRYVDPALGFAIGYTYLFKYFILPPNQLTAAALVIQYWISRDRVNPGVWITIFLVVIVAINVVGVKFFGEFEFWLSSFKVMVMLGLILLLFIIMLGGGPNHDRLGFRYWRDPGAFKEYSTAITGGKGKFVSFVAVFVYSLFSYTGIELTGIVCSEAENPRKSVPKAIKLTVYRIIVFYLCTVFLLGMCVAYNDPRLLSTKGKSMSAAASPFVVAIQNSGIEVLPHIFNACVLVFVFSACNSDLYVSSRNLYALAIDGKAPKIFAKTSRWGVPYNALILSVLFCGLAYMNVSSGSAKIFNYFVNVVSMFGILSWITILIVYIYFDKACRAQGIDKSKFAYVAPGQRYGAYFALFFCILIALIKNFTVFLGHKFDYKTFITGYIGLPVYIISWAGYKLIYKTKVIKSTDVDLYTFKEIYDREEEEGRMKDQEKEERLKSNGKNMEWFYEKFLGNIF"},{"created_at":"2011-05-24T20:04:13.000Z","updated_at":"2011-05-27T14:55:59.000Z","name":"Glycine dehydrogenase [decarboxylating], mitochondrial","uniprot_id":"P49095","uniprot_name":"GCSP_YEAST","enzyme":true,"transporter":false,"gene_name":"GCV2","num_residues":1034,"molecular_weight":"114450.0","theoretical_pi":"7.26","general_function":"Involved in glycine dehydrogenase (decarboxylating) activity","specific_function":"The glycine cleavage system (glycine decarboxylase complex) catalyzes the degradation of glycine. The P protein binds the alpha-amino group of glycine through its pyridoxal phosphate cofactor; CO(2) is released and the remaining methylamine moiety is then transferred to the lipoamide cofactor of the H protein","reactions":[{"id":2296,"direction":"\u003e","locations":"Mitochondrion","altext":"Glycine + H-protein-lipoyllysine = H-protein-S-aminomethyldihydrolipoyllysine + CO(2).","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Mitochondrion","genbank_gene_id":"U20641","genbank_protein_id":"676871","gene_card_id":"GCV2","chromosome_location":"chromosome 13","locus":"YMR189W","synonyms":["Glycine cleavage system P protein","Glycine decarboxylase","Glycine decarboxylase complex subunit P"],"enzyme_classes":["1.4.4.2"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" oxidoreductase activity, acting on the CH-NH2 group of donors"},{"category":"Function","description":" oxidoreductase activity"},{"category":"Function","description":" oxidoreductase activity, acting on the CH-NH2 group of donors, disulfide as acceptor"},{"category":"Function","description":" glycine dehydrogenase (decarboxylating) activity"},{"category":"Process","description":" glycine metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"},{"category":"Process","description":" oxidation reduction"},{"category":"Process","description":" serine family amino acid metabolic process"}],"pfams":[{"name":"GDC-P","identifier":"PF02347"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"}],"gene_sequence":"ATGCTTAGGACAAGAGTGACTGCTCTCCTTTGTAGGGCTACTGTCAGGTCAAGCACCAATTATGTTTCATTAGCGAGGACTAGATCATTCCATTCTCAATCTATTTTGCTCAAAACAGCCGCTACAGACATAACGTCTACACAGTACAGCAGGATTTTCAATCCTGACTTGAAAAACATTGATAGACCGCTAGATACTTTTGCTAGACGTCATTTAGGTCCTTCTCCTAGCGACGTTAAGAAAATGTTAAAAACAATGGGTTATAGCGATTTAAACGCATTTATAGAAGAGCTCGTTCCTCCCAATATTTTGAAGAGAAGACCCTTGAAACTAGAAGCTCCTAGTAAGGGATTCTGTGAACAAGAAATGCTTCAACATCTAGAAAAGATTGCCAATAAGAACCACTATAAAGTTAAAAATTTCATAGGTAAGGGTTACTACGGTACGATTTTACCACCGGTTATACAAAGAAACCTGCTAGAAAGTCCAGAATGGTATACTTCTTATACGCCCTATCAACCCGAAATTTCTCAAGGTAGGCTAGAAGCGCTATTAAACTTTCAAACGGTTGTTTCAGATTTGACTGGTTTGCCTGTGGCGAACGCCTCATTGTTGGATGAGGGTACAGCGGCTGGAGAAGCTATGCTCTTGTCATTCAATATTTCCAGAAAAAAGAAACTAAAATACGTAATAGATAAAAAATTACACCAGCAAACAAAGAGTGTCCTTCACACCAGAGCCAAGCCGTTCAATATTGAAATTATTGAAGTTGACTGTTCGGATATCAAGAAAGCTGTGGATGTTTTAAAGAACCCCGACGTATCTGGTTGTTTGGTTCAATATCCAGCGACAGATGGTTCAATCTTACCGCCTGACTCGATGAAACAGTTATCTGATGCGTTACACTCTCACAAGTCTTTGCTCTCTGTGGCCTCAGATTTAATGGCTTTGACACTTCTAAAACCACCTGCTCATTACGGTGCTGATATCGTCCTGGGTTCCTCTCAACGATTTGGTGTCCCAATGGGTTATGGTGGTCCTCATGCTGCTTTTTTCGCTGTTATTGATAAATTAAACAGAAAAATTCCAGGTAGAATTGTCGGTATCTCTAAAGACCGCTTAGGCAAGACGGCCTTGCGGTTGGCCCTCCAAACAAGAGAACAACATATCAAGCGTGATAAGGCAACTTCAAATATATGTACCGCTCAAGCTTTACTGGCTAATGTTGCTTCGAGCTACTGTGTTTATCACGGTCCTAAGGGCCTACAGAATATTTCCAGGAGGATATTTAGCTTAACATCAATATTGGCAAATGCCATCGAAAATGACAGTTGCCCTCACGAACTAATTAATAAAACATGGTTTGATACTTTGACTATAAAGTTAGGTAATGGCATATCCTCCGAGCAGTTATTGGACAAGGCCTTGAAAGAATTTAATATCAATTTGTTTGCCGTGGACACCACCACTATTTCCTTGGCTCTTGATGAAACAACTACAAAAGCTGATGTTGAAAATCTACTAAAAGTGTTTGACATTGAAAATTCTTCGCAGTTTCTTTCTGAGGACTATTCTAACAGTTTCCCAAGGGAATTTCAGCGTACTGATGAAATATTGAGGAACGAAGTCTTTCACATGCACCATAGCGAAACAGCAATGTTGAGATATTTACATAGGTTGCAATCTCGTGATTTATCTCTTGCTAATTCTATGATTCCTTTAGGTTCCTGTACTATGAAATTGAACAGTACTGTTGAAATGATGCCAATCACTTGGCCCCAATTTTCGAATATCCATCCGTTCCAGCCATCAAACCAAGTCCAAGGATACAAGGAACTAATTACTTCGTTGGAGAAAGATTTATGCAGCATTACAGGTTTCGATGGTATTTCTTTACAACCAAATTCAGGTGCTCAAGGTGAATATACTGGTCTGAGAGTAATCAGATCCTACCTGGAAAGCAAAGGTGAAAATCATCGTAACGTGTGTTTAATCCCTGTATCCGCTCATGGTACAAATCCGGCTTCTGCCGCTATGGCGGGTTTAAAAGTTGTTCCTGTCAACTGTTTGCAGGATGGCTCATTAGATCTGGTTGACTTAAAGAATAAGGCTGAACAACATTCTAAAGAACTAGCCGCCGTAATGATCACCTATCCTTCCACTTACGGTTTATTTGAACCAGGCATCCAACATGCTATTGATATCGTACATTCTTTTGGTGGACAAGTCTATTTGGATGGTGCTAATATGAATGCGCAGGTTGGGCTAACTTCACCCGGAGATCTTGGTGCAGATGTTTGCCACTTGAATTTACATAAGACATTTTCCATTCCTCATGGTGGTGGTGGTCCAGCTGGAGCTCCCATTTGCGTCAAATCTCATTTAATACCCCATTTACCTAAACATGACGTTGTTGATATGATCACTGGAATCGGCGGTAGCAAATCCATCGATTCGGTCTCCTCTGCTCCATATGGTAATGCTTTAGTGTTACCAATTTCTTATGCCTATATCAAAATGATGGGTAATGAGGGATTACCATTTTCTAGTGTGATAGCAATGCTAAATTCAAATTATATGATGACAAGATTAAAAGATCATTATAAAATTCTTTTCGTCAATGAAATGAGCACACTAAAACACTGCGCTCATGAATTTATAGTTGATCTAAGAGAATACAAAGCTAAAGGTGTTGAAGCTATCGATGTTGCCAAGAGATTGCAAGACTACGGATTCCATGCCCCAACGTTGGCCTTCCCTGTTCCCGGAACTTTGATGATAGAACCAACAGAATCGGAAAACTTGGAAGAATTGGATAGATTCTGTGATGCCATGATATCCATCAAAGAAGAAATAAATGCCTTAGTAGCAGGTCAACCAAAAGGACAGATTTTGAAAAATGCCCCTCATTCATTGGAAGATCTTATTACTTCCTCCAATTGGGATACGAGAGGTTATACCCGTGAAGAAGCCGCTTACCCATTACCCTTTTTGAGATACAATAAATTCTGGCCTACTGTCGCTAGACTGGATGACACTTATGGTGACATGAATTTAATATGTACATGCCCTTCTGTAGAAGAAATTGCGAACGAAACTGAATGA","protein_sequence":"MLRTRVTALLCRATVRSSTNYVSLARTRSFHSQSILLKTAATDITSTQYSRIFNPDLKNIDRPLDTFARRHLGPSPSDVKKMLKTMGYSDLNAFIEELVPPNILKRRPLKLEAPSKGFCEQEMLQHLEKIANKNHYKVKNFIGKGYYGTILPPVIQRNLLESPEWYTSYTPYQPEISQGRLEALLNFQTVVSDLTGLPVANASLLDEGTAAGEAMLLSFNISRKKKLKYVIDKKLHQQTKSVLHTRAKPFNIEIIEVDCSDIKKAVDVLKNPDVSGCLVQYPATDGSILPPDSMKQLSDALHSHKSLLSVASDLMALTLLKPPAHYGADIVLGSSQRFGVPMGYGGPHAAFFAVIDKLNRKIPGRIVGISKDRLGKTALRLALQTREQHIKRDKATSNICTAQALLANVASSYCVYHGPKGLQNISRRIFSLTSILANAIENDSCPHELINKTWFDTLTIKLGNGISSEQLLDKALKEFNINLFAVDTTTISLALDETTTKADVENLLKVFDIENSSQFLSEDYSNSFPREFQRTDEILRNEVFHMHHSETAMLRYLHRLQSRDLSLANSMIPLGSCTMKLNSTVEMMPITWPQFSNIHPFQPSNQVQGYKELITSLEKDLCSITGFDGISLQPNSGAQGEYTGLRVIRSYLESKGENHRNVCLIPVSAHGTNPASAAMAGLKVVPVNCLQDGSLDLVDLKNKAEQHSKELAAVMITYPSTYGLFEPGIQHAIDIVHSFGGQVYLDGANMNAQVGLTSPGDLGADVCHLNLHKTFSIPHGGGGPAGAPICVKSHLIPHLPKHDVVDMITGIGGSKSIDSVSSAPYGNALVLPISYAYIKMMGNEGLPFSSVIAMLNSNYMMTRLKDHYKILFVNEMSTLKHCAHEFIVDLREYKAKGVEAIDVAKRLQDYGFHAPTLAFPVPGTLMIEPTESENLEELDRFCDAMISIKEEINALVAGQPKGQILKNAPHSLEDLITSSNWDTRGYTREEAAYPLPFLRYNKFWPTVARLDDTYGDMNLICTCPSVEEIANETE"},{"created_at":"2011-05-24T20:05:04.000Z","updated_at":"2011-05-27T14:55:59.000Z","name":"Glutathione synthetase","uniprot_id":"Q08220","uniprot_name":"GSHB_YEAST","enzyme":true,"transporter":false,"gene_name":"GSH2","num_residues":491,"molecular_weight":"55814.69922","theoretical_pi":"5.32","general_function":"Involved in ATP binding","specific_function":"ATP + gamma-L-glutamyl-L-cysteine + glycine = ADP + phosphate + glutathione","reactions":[{"id":1585,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2297,"direction":"\u003e","locations":null,"altext":"ATP + gamma-L-glutamyl-L-cysteine + glycine = ADP + phosphate + glutathione.","export":false,"pw_reaction_id":null,"source":null},{"id":3830,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006355","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":"1M0W","cellular_location":null,"genbank_gene_id":"AY723864","genbank_protein_id":"51830516","gene_card_id":"GSH2","chromosome_location":"chromosome 15","locus":"YOL049W","synonyms":["GSH synthetase","GSH-S","Glutathione synthase"],"enzyme_classes":["6.3.2.3"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" acid-amino acid ligase activity"},{"category":"Function","description":" glutathione synthase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" ligase activity, forming carbon-nitrogen bonds"},{"category":"Function","description":" binding"},{"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":"Process","description":" peptide metabolic process"},{"category":"Process","description":" glutathione metabolic process"},{"category":"Process","description":" glutathione biosynthetic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"}],"pfams":[{"name":"GSH_synth_ATP","identifier":"PF03917"},{"name":"GSH_synthase","identifier":"PF03199"}],"pathways":[{"name":"Glutathione metabolism","kegg_map_id":"00480"}],"gene_sequence":"ATGGCACACTATCCACCTTCCAAGGATCAATTGAATGAATTGATCCAGGAAGTTAACCAATGGGCTATCACTAATGGATTATCCATGTATCCTCCTAAATTCGAGGAGAACCCATCAAATGCATCGGTGTCACCAGTAACTATCTATCCAACCCCAATTCCTAGGAAATGTTTTGATGAGGCCGTTCAAATACAACCGGTATTCAATGAATTATACGCCCGTATTACCCAAGATATGGCCCAACCTGATTCTTATTTACATAAAACAACTGAAGCGTTAGCTCTATCAGATTCCGAGTTTACTGGAAAACTGTGGTCTCTATACCTTGCTACCTTAAAATCTGCACAGTACAAAAAGCAGAATTTTAGGCTAGGTATATTTAGATCAGATTATTTGATTGATAAGAAAAAGGGTACTGAACAGATTAAGCAAGTCGAGTTTAATACAGTGTCAGTGTCATTTGCAGGCCTTAGCGAGAAAGTTGATAGATTGCACTCTTATTTAAATAGGGCAAACAAGTACGATCCTAAAGGACCAATTTATAATGATCAAAATATGGTCATTTCTGATTCAGGATACCTTTTGTCTAAGGCATTGGCCAAAGCTGTGGAATCGTATAAGTCACAACAAAGTTCTTCTACAACTAGTGATCCTATTGTCGCATTCATTGTGCAAAGAAACGAGAGAAATGTGTTTGATCAAAAGGTCTTGGAATTGAATCTGTTGGAAAAATTCGGTACCAAATCTGTTAGGTTGACGTTTGATGATGTTAACGATAAATTGTTCATTGATGATAAAACGGGAAAGCTTTTCATTAGGGACACAGAGCAGGAAATAGCGGTGGTTTATTACAGAACGGGTTACACAACCACTGATTACACGTCCGAAAAGGACTGGGAGGCAAGACTATTCCTCGAAAAAAGTTTCGCAATAAAGGCCCCAGATTTACTCACTCAATTATCTGGCTCCAAGAAAATTCAGCAATTGTTGACAGATGAGGGCGTATTAGGTAAATACATCTCCGATGCTGAGAAAAAGAGTAGTTTGTTAAAAACTTTTGTCAAAATATATCCCTTGGATGATACGAAGCTTGGCAGGGAAGGCAAGAGGCTGGCATTAAGTGAGCCCTCTAAATACGTGTTAAAACCACAGCGGGAAGGTGGCGGAAACAATGTTTATAAAGAAAATATTCCTAATTTTTTGAAAGGTATCGAAGAACGTCACTGGGATGCATATATTCTCATGGAGTTGATTGAACCAGAGTTGAATGAAAATAATATTATATTACGTGATAACAAATCTTACAACGAACCAATCATCAGTGAACTAGGAATTTATGGTTGCGTTCTATTTAACGACGAGCAAGTTTTATCGAACGAATTTAGTGGCTCATTACTAAGATCCAAATTTAATACTTCAAATGAAGGTGGAGTGGCGGCAGGATTCGGATGTTTGGACAGTATTATTCTTTACTAG","protein_sequence":"MAHYPPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLHKTTEALALSDSEFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKKGTEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQREGGGNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKFNTSNEGGVAAGFGCLDSIILY"},{"created_at":"2011-05-24T20:05:57.000Z","updated_at":"2011-05-27T14:55:59.000Z","name":"Serine hydroxymethyltransferase, cytosolic","uniprot_id":"P37291","uniprot_name":"GLYC_YEAST","enzyme":true,"transporter":false,"gene_name":"SHM2","num_residues":469,"molecular_weight":"52218.0","theoretical_pi":"7.47","general_function":"Involved in catalytic activity","specific_function":"Interconversion of serine and glycine","reactions":[{"id":1597,"direction":"\u003c\u003e","locations":"mitochondrion;cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2298,"direction":"\u003e","locations":"Cytoplasm;Mitochondrion","altext":"5,10-methylenetetrahydrofolate + glycine + H(2)O = tetrahydrofolate + L-serine.","export":false,"pw_reaction_id":null,"source":null},{"id":3844,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006367","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Cytoplasm","genbank_gene_id":"L22529","genbank_protein_id":"439120","gene_card_id":"SHM2","chromosome_location":"chromosome 12","locus":"YLR058C","synonyms":["SHMT","Glycine hydroxymethyltransferase","Serine methylase"],"enzyme_classes":["2.1.2.1"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" transferase activity, transferring one-carbon groups"},{"category":"Function","description":" methyltransferase activity"},{"category":"Function","description":" glycine hydroxymethyltransferase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" cofactor binding"},{"category":"Process","description":" serine family amino acid metabolic process"},{"category":"Process","description":" glycine metabolic process"},{"category":"Process","description":" L-serine metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"}],"pfams":[{"name":"SHMT","identifier":"PF00464"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"Cyanoamino acid metabolism","kegg_map_id":"00460"},{"name":"One carbon pool by folate","kegg_map_id":"00670"},{"name":"Methane metabolism","kegg_map_id":"00680"},{"name":"glycine metabolism","kegg_map_id":null},{"name":"serine metabolism","kegg_map_id":null}],"gene_sequence":"ATGCCTTACACTCTATCCGACGCTCATCATAAGTTGATCACCTCTCATTTGGTGGACACCGACCCTGAAGTGGACTCCATTATCAAGGATGAAATTGAAAGACAAAAGCACTCCATCGATTTGATTGCTTCTGAAAATTTCACCTCAACCTCCGTTTTCGATGCCCTTGGAACTCCATTGTCCAACAAATATTCTGAAGGTTATCCAGGTGCTCGTTACTACGGTGGTAATGAACACATTGACAGAATGGAAATTCTATGTCAACAAAGAGCTTTGAAAGCTTTCCATGTTACTCCAGACAAATGGGGTGTTAACGTCCAAACTTTATCTGGTTCTCCTGCTAACTTGCAAGTTTATCAAGCTATTATGAAGCCTCATGAAAGATTGATGGGTCTATACCTACCAGATGGTGGTCATTTGTCTCACGGTTACGCTACTGAAAACAGAAAAATTTCTGCTGTTTCCACATACTTTGAATCTTTCCCATACAGAGTTAACCCAGAAACCGGTATTATCGACTACGATACTTTAGAAAAGAACGCCATCCTATATAGACCAAAGGTTCTTGTTGCTGGTACTTCAGCATACTGTCGTTTAATTGACTACAAGAGAATGAGAGAAATCGCCGACAAATGTGGTGCTTACTTGATGGTAGACATGGCCCACATTTCTGGTTTGATCGCCGCAGGTGTCATCCCATCTCCTTTCGAATACGCTGATATCGTTACCACCACCACTCACAAGTCTTTGAGAGGTCCACGTGGTGCTATGATTTTCTTCAGAAGAGGTGTGAGATCTATCAACCCTAAGACCGGTAAGGAAGTTCTATACGACTTGGAAAACCCAATTAACTTCTCTGTTTTCCCAGGTCACCAAGGTGGTCCACACAACCATACCATTGCTGCTTTGGCCACTGCTTTGAAGCAAGCTGCCACTCCAGAATTCAAGGAATACCAAACTCAAGTCTTGAAGAATGCTAAGGCTTTGGAAAGTGAATTTAAGAACTTGGGCTACAGATTAGTTTCCAACGGTACCGATTCTCACATGGTTCTAGTATCCTTGAGAGAAAAGGGTGTTGATGGTGCTCGTGTTGAATACATTTGTGAAAAGATTAACATTGCTTTGAACAAAAATTCTATTCCAGGTGACAAATCTGCTTTGGTTCCAGGTGGTGTCCGTATTGGGGCTCCAGCCATGACCACTAGAGGAATGGGTGAAGAAGATTTCCACAGAATTGTTCAATACATTAACAAGGCTGTAGAATTCGCTCAACAAGTTCAACAAAAGCTTCCAAAGGATGCTTGTAGATTAAAGGACTTCAAAGCCAAGGTCGACGAAGGCTCTGATGTTTTGAACACCTGGAAAAAGGAAATTTACGACTGGGCTGGCGAATACCCATTGGCTGTGTAA","protein_sequence":"MPYTLSDAHHKLITSHLVDTDPEVDSIIKDEIERQKHSIDLIASENFTSTSVFDALGTPLSNKYSEGYPGARYYGGNEHIDRMEILCQQRALKAFHVTPDKWGVNVQTLSGSPANLQVYQAIMKPHERLMGLYLPDGGHLSHGYATENRKISAVSTYFESFPYRVNPETGIIDYDTLEKNAILYRPKVLVAGTSAYCRLIDYKRMREIADKCGAYLMVDMAHISGLIAAGVIPSPFEYADIVTTTTHKSLRGPRGAMIFFRRGVRSINPKTGKEVLYDLENPINFSVFPGHQGGPHNHTIAALATALKQAATPEFKEYQTQVLKNAKALESEFKNLGYRLVSNGTDSHMVLVSLREKGVDGARVEYICEKINIALNKNSIPGDKSALVPGGVRIGAPAMTTRGMGEEDFHRIVQYINKAVEFAQQVQQSLPKDACRLKDFKAKVDEGSDVLNTWKKEIYDWAGEYPLAV"},{"created_at":"2011-05-24T20:07:56.000Z","updated_at":"2011-05-27T14:55:59.000Z","name":"Serine hydroxymethyltransferase, mitochondrial","uniprot_id":"P37292","uniprot_name":"GLYM_YEAST","enzyme":true,"transporter":false,"gene_name":"SHM1","num_residues":490,"molecular_weight":"53686.0","theoretical_pi":"9.05","general_function":"Involved in catalytic activity","specific_function":"Interconversion of serine and glycine","reactions":[{"id":1597,"direction":"\u003c\u003e","locations":"mitochondrion;cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2298,"direction":"\u003e","locations":"Cytoplasm;Mitochondrion","altext":"5,10-methylenetetrahydrofolate + glycine + H(2)O = tetrahydrofolate + L-serine.","export":false,"pw_reaction_id":null,"source":null},{"id":3845,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006368","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Mitochondrion","genbank_gene_id":"L22528","genbank_protein_id":"408368","gene_card_id":"SHM1","chromosome_location":"chromosome 2","locus":"YBR263W","synonyms":["SHMT","Glycine hydroxymethyltransferase","Serine methylase"],"enzyme_classes":["2.1.2.1"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" transferase activity, transferring one-carbon groups"},{"category":"Function","description":" methyltransferase activity"},{"category":"Function","description":" glycine hydroxymethyltransferase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" cofactor binding"},{"category":"Process","description":" serine family amino acid metabolic process"},{"category":"Process","description":" glycine metabolic process"},{"category":"Process","description":" L-serine metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"}],"pfams":[{"name":"SHMT","identifier":"PF00464"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"Cyanoamino acid metabolism","kegg_map_id":"00460"},{"name":"One carbon pool by folate","kegg_map_id":"00670"},{"name":"Methane metabolism","kegg_map_id":"00680"},{"name":"glycine metabolism","kegg_map_id":null},{"name":"serine metabolism","kegg_map_id":null}],"gene_sequence":"ATGTTTCCCAGAGCTTCTGCATTGGCCAAATGTATGGCAACTGTTCATCGTCGTGGGCTACTCACCAGTGGTGCACAATCGCTAGTCTCCAAACCAGTCTCGGAGGGAGATCCAGAGATGTTTGACATCTTGCAACAAGAACGTCACAGACAAAAACACTCTATCACCCTTATCCCATCAGAAAACTTCACCTCGAAGGCCGTTATGGATTTGTCAGGTTCTGAGCTCCAAAACAAGTATTCTGAAGGTTATCCAGGTGAAAGATACTACGGAGGTAACGAAATCATCGATAAGTCCGAATCCTTGTGTCAAGCAAGAGCTCTGGAACTGTACGGATTAGACCCTGCCAAGTGGGGAGTTAATGTTCAACCATTAAGCGGGGCACCTGCCAATTTGTATGTTTACTCCGCTATCATGAACGTTGGTGAAAGATTAATGGGATTGGATTTGCCAGATGGTGGTCACTTGTCTCACGGGTACCAACTTAAGTCAGGAACGCCAATTTCTTTCATTTCCAAATACTTCCAAAGTATGCCATACCATGTCGACCACACTACGGGGCTAATCGATTACGATAACTTGCAAGTATTGGCCAAGGCATTCAGACCAAAGGTGATCGTGGCCGGTACTTCCGCGTACTCGAGATTAATAGACTACGCTAGATTCAAGGAAATTTCCCAAGGATGCGGCGCATATTTGATGAGTGATATGGCACACATATCCGGTTTGGTGGCAGCCAATGTTGTCCCATCTCCATTTGAACATTCCGATATAGTTACCACAACCACTCACAAGTCCTTGAGAGGCCCAAGAGGTGCTATGATTTTCTTCAGAAAGGGTATCAAGTCTGTCACCAAAAAGGGCAAGGAAATCCCATATGAGTTAGAAAAGAAAATCAACTTCTCAGTTTTCCCAGGACATCAAGGTGGTCCTCACAACCATACTATCGGTGCAATGGCAGTGGCATTAAAGCAAGCGATGTCTCCAGAATTCAAAGAATACCAACAAAAAATTGTCGACAACAGCAAATGGTTTGCTCAGGAACTAACCAAGATGGGTTATAAGTTGGTTTCCGGCGGTACCGATAACCACTTGATTGTTATTGACTTATCCGGTACTCAGGTAGACGGTGCTCGTGTCGAGACAATTTTAAGTGCCTTGAACATTGCTGCTAACAAGAACACCATCCCAGGTGATAAGAGTGCTCTTTTCCCCTCTGGTCTAAGAATCGGTACTCCAGCAATGACCACGAGAGGATTTGGCCGTGAAGAGTTTTCTCAAGTCGCAAAGTACATTGATTCTGCCGTTAAGCTCGCTGAAAATTTGAAAACTTTGGAACCAACAACGAAACTAGATGCAAGATCAAGACTCAATGAGTTCAAGAAGTTGTGTAATGAATCTAGTGAAGTCGCTGCTTTGTCTGGCGAGATTTCCAAGTGGGTCGGTCAATACCCTGTCCCAGGTGATATCTAA","protein_sequence":"MFPRASALAKCMATVHRRGLLTSGAQSLVSKPVSEGDPEMFDILQQERHRQKHSITLIPSENFTSKAVMDLLGSELQNKYSEGYPGERYYGGNEIIDKSESLCQARALELYGLDPAKWGVNVQPLSGAPANLYVYSAIMNVGERLMGLDLPDGGHLSHGYQLKSGTPISFISKYFQSMPYHVDHTTGLIDYDNLQVLAKAFRPKVIVAGTSAYSRLIDYARFKEISQGCGAYLMSDMAHISGLVAANVVPSPFEHSDIVTTTTHKSLRGPRGAMIFFRKGIKSVTKKGKEIPYELEKKINFSVFPGHQGGPHNHTIGAMAVALKQAMSPEFKEYQQKIVDNSKWFAQELTKMGYKLVSGGTDNHLIVIDLSGTQVDGARVETILSALNIAANKNTIPGDKSALFPSGLRIGTPAMTTRGFGREEFSQVAKYIDSAVKLAENLKTLEPTTKLDARSRLNEFKKLCNESSEVAALSGEISKWVGQYPVPGDI"},{"created_at":"2011-05-24T20:08:32.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Proline-specific permease","uniprot_id":"P15380","uniprot_name":"PUT4_YEAST","enzyme":false,"transporter":true,"gene_name":"PUT4","num_residues":627,"molecular_weight":"68786.79688","theoretical_pi":"7.59","general_function":"Involved in transport","specific_function":"Required for high-affinity proline transport. May be responsible for proline recognition and probably also for proline translocation across the plasma membrane. Also function as non- specific GABA permease. Can also transport alanine and glycine","reactions":[],"signal_regions":"None","transmembrane_regions":"115-136;142-162;191-210;229-247;262-281;306-326;351-370;408-427;455-473;483-503;522-542;558-578","pdb_id":null,"cellular_location":"Membrane; Multi-pass membrane protein","genbank_gene_id":"M30583","genbank_protein_id":"172307","gene_card_id":"PUT4","chromosome_location":"chromosome 15","locus":"YOR348C","synonyms":[],"enzyme_classes":[],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" membrane"},{"category":"Component","description":" membrane part"},{"category":"Component","description":" intrinsic to membrane"},{"category":"Component","description":" integral to membrane"},{"category":"Function","description":" transporter activity"},{"category":"Function","description":" transmembrane transporter activity"},{"category":"Function","description":" active transmembrane transporter activity"},{"category":"Function","description":" amine transmembrane transporter activity"},{"category":"Function","description":" amino acid transmembrane transporter activity"},{"category":"Process","description":" transmembrane transport"},{"category":"Process","description":" establishment of localization"},{"category":"Process","description":" transport"},{"category":"Process","description":" amine transport"},{"category":"Process","description":" amino acid transport"}],"pfams":[{"name":"AA_permease","identifier":"PF00324"}],"pathways":[],"gene_sequence":"ATGGTAAATATACTGCCCTTCCACAAGAACAATAGACACAGCGCGGGAGTCGTCACCTGCGCGGACGATGTTAGCGGCGACGGTAGCGGCGGCGACACCAAGAAGGAGGAGAATGTTGTCCAGGTAACGGAATCACCATCGTCCGGGTCGCGCAATAATCATCGCAGCGACAATGAAAAAGATGACGCCATCCGTATGGAGAAAATATCTAAGAACCAGTCCGCGTCGTCCAACGGCACCATCCGCGAGGATTTGATTATGGACGTGGACTTGGAGAAATCGCCCTCCGTCGATGGCGATAGCGAGCCGCACAAACTAAAACAAGGTTTGCAGTCGCGCCATGTGCAACTGATCGCGCTGGGCGGCGCCATCGGTACCGGTTTGCTGGTGGGGACTTCATCCACGCTTCATACGTGCGGTCCCGCGGGGCTGTTCATATCGTACATTATTATTTCCGCGGTGATCTACCCGATCATGTGCGCGCTGGGCGAAATGGTGTGCTTTTTGCCCGGTGATGGTTCTGACAGTGCCGGGTCGACGGCCAATCTGGTCACTAGGTACGTTGACCCTTCGTTGGGCTTCGCCACTGGGTGGAATTACTTCTACTGCTACGTCATTTTAGTGGCCGCCGAGTGTACGGCGGCATCCGGTGTGGTCGAATACTGGACCACCGCGGTTCCCAAGGGCGTTTGGATCACGATCTTTCTATGCGTGGTTGTTATACTAAACTTTTCCGCGGTCAAAGTGTACGGCGAATCCGAGTTTTGGTTCGCGTCTATCAAGATATTATGCATTGTGGGACTGATCATTCTGTCCTTTATTTTGTTTTGGGGTGGTGGCCCCAACCATGACCGTCTTGGCTTCAGATACTGGCAACATCCGGGCGCTTTTGCGCATCACCTCACGGGCGGATCGCTGGGTAACTTCACAGATATCTACACTGGGATTATCAAGGGCGCCTTCGCCTTCATTCTTGGTCCGGAACTGGTGTGCATGACTTCCGCGGAATGCGCGGACCAGCGTAGAAATATCGCTAAGGCTTCGCGCCGCTTTGTATGGAGACTGATCTTCTTCTACGTTCTGGGGACGCTGGCCATCTCCGTTATTGTTCCATATAATGACCCAACATTGGTAAATGCGCTGGCGCAGGGCAAACCGGGAGCCGGCTCGTCACCCTTTGTGATCGGAATTCAAAACGCCGGGATTAAGGTTCTTCCCCACATTATCAATGGGTGTATCTTGACCAGCGCGTGGTCTGCCGCCAATGCGTTTATGTTTGCGAGCACAAGATCCCTGTTGACCATGGCGCAAACGGGACAGGCACCCAAATGTTTGGGCAGAATCAACAAATGGGGTGTTCCATACGTGGCTGTGGGTGTTTCCTTCTTGTGTTCTTGTTTGGCATATCTGAACGTGTCTTCATCCACGGCAGACGTGTTCAATTGGTTTTCCAATATCAGCACCATTTCCGGGTTTCTGGGCTGGATGTGCGGCTGCATCGCGTACCTGAGATTCCGCAAGGCTATTTTCTACAATGGCCTCTACGACAGATTGCCTTTCAAGACGTGGGGACAGCCTTACACCGTGTGGTTCTCTCTCATTGTTATAGGCATCATCACCATTACCAACGGGTATGCCATTTTCATCCCTAAGTACTGGAGAGTAGCAGATTTCATAGCTGCCTACATCACCCTACCCATCTTCCTGGTTTTGTGGTTCGGCCATAAGCTGTATACTCGGACGTGGAGACAATGGTGGCTCCCTGTGTCCGAGATCGATGTTACTACAGGGCTAGTCGAGATCGAAGAGAAATCAAGAGAAATTGAGGAGATGAGATTACCCCCCACCGGTTTCAAAGACAAGTTCTTGGACGCCTTGTTGTAA","protein_sequence":"MVNILPFHKNNRHSAGVVTCADDVSGDGSGGDTKKEEDVVQVTESPSSGSRNNHRSDNEKDDAIRMEKISKNQSASSNGTIREDLIMDVDLEKSPSVDGDSEPHKLKQGLQSRHVQLIALGGAIGTGLLVGTSSTLHTCGPAGLFISYIIISAVIYPIMCALGEMVCFLPGDGSDSAGSTANLVTRYVDPSLGFATGWNYFYCYVILVAAECTAASGVVEYWTTAVPKGVWITIFLCVVVILNFSAVKVYGESEFWFASIKILCIVGLIILSFILFWGGGPNHDRLGFRYWQHPGAFAHHLTGGSLGNFTDIYTGIIKGAFAFILGPELVCMTSAECADQRRNIAKASRRFVWRLIFFYVLGTLAISVIVPYNDPTLVNALAQGKPGAGSSPFVIGIQNAGIKVLPHIINGCILTSAWSAANAFMFASTRSLLTMAQTGQAPKCLGRINKWGVPYVAVGVSFLCSCLAYLNVSSSTADVFNWFSNISTISGFLGWMCGCIAYLRFRKAIFYNGLYDRLPFKTWGQPYTVWFSLIVIGIITITNGYAIFIPKYWRVADFIAAYITLPIFLVLWFGHKLYTRTWRQWWLPVSEIDVTTGLVEIEEKSREIEEMRLPPTGFKDKFLDALL"},{"created_at":"2011-05-24T20:08:56.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Low specificity L-threonine aldolase","uniprot_id":"P37303","uniprot_name":"GLY1_YEAST","enzyme":true,"transporter":false,"gene_name":"GLY1","num_residues":387,"molecular_weight":"42814.60156","theoretical_pi":"6.24","general_function":"Involved in lyase activity","specific_function":"Catalyzes the cleavage of L-allo-threonine and L- threonine to glycine and acetaldehyde","reactions":[{"id":1690,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2008,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2299,"direction":"\u003e","locations":null,"altext":"L-threonine = glycine + acetaldehyde.","export":false,"pw_reaction_id":null,"source":null},{"id":2300,"direction":"\u003e","locations":null,"altext":"L-allo-threonine = glycine + acetaldehyde.","export":false,"pw_reaction_id":null,"source":null},{"id":3852,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006373","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":null,"genbank_gene_id":"L28739","genbank_protein_id":"453570","gene_card_id":"GLY1","chromosome_location":"chromosome 5","locus":"YEL046C","synonyms":["Low specificity L-TA","TA"],"enzyme_classes":["4.1.2.5"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" lyase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" cofactor binding"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"}],"pfams":[{"name":"Beta_elim_lyase","identifier":"PF01212"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"glycine metabolism","kegg_map_id":null},{"name":"threonine metabolism","kegg_map_id":null}],"gene_sequence":"ATGACTGAATTCGAATTGCCTCCAAAATATATCACCGCTGCTAACGACTTGCGGTCAGACACATTCACCACTCCAACTGCAGAGATGATGGAGGCCGCTTTAGAGGCCTCTATCGGTGACGCTGTCTACGGTGAAGATGTTGACACCGTTAGGCTCGAACAGACCGTTGCCCGCATGGCTGGCAAAGAAGCAGGTTTGTTCTGTGTCTCTGGGACTTTGTCCAACCAGATTGCCATCAGAACTCACTTGATGCAACCTCCATACTCTATTCTATGTGATTACAGGGCTCACGTTTACACTCACGAAGCCGCTGGACTGGCGATCTTGTCTCAAGCGATGGTGGTTCCTGTGGTTCCTTCCAACGGTGACTACTTGACCTTGGAAGACATCAAGTCACACTACGTCCCAGACGACGGTGATATTCACGGTGCCCCCACCAGATTGATTTCTCTGGAAAACACTTTACACGGTATTGTTTATCCATTGGAAGAACTGGTCCGCATCAAAGCTTGGTGTATGGAAAATGGTCTCAAACTACATTGTGACGGTGCCAGAATCTGGAATGCCGCTGCACAATCTGGCGTGCCATTAAAGCAATATGGGGAAATCTTCGACTCCATCTCCATCTGTCTATCCAAGTCTATGGGTGCTCCTATTGGGTCCGTCTTGGTTGGGAACCTTAAGTTTGTCAAGAAGGCCACCCATTTCAGAAAACAACAAGGTGGTGGTATTAGACAATCTGGTATGATGGCTAGAATAGCTCTTGTAAACATCAACAACGATTGGAAGTCCCAATTGCTGTACTCGCACTCTTTGGCTCATGAATTAGCCGAATATTGTGAGGCAAAGGGCATCCCGCTAGAGTCTCCAGCAGACACCAACTTTGTCTTTATTAACCTGAAGGCCGCTAGAATGGACCCAGATGTCCTTGTTAAGAAGGGTTTGAAGTACAACGTTAAGCTAATGGGTGGTAGAGTCTCGTTCCACTATCAAGTCACCAGAGATACTTTGGAAAAAGTCAAATTGGCCATCTCCGAGGCCTTCGACTATGCTAAAGAACATCCTTTCGACTGTAACGGACCTACCCAGATTTACCGTAGTGAATCCACCGAGGTCGACGTTGATGGCAACGCTATCCGCGAAATAAAAACCTACAAATACTGA","protein_sequence":"MTEFELPPKYITAANDLRSDTFTTPTAEMMEAALEASIGDAVYGEDVDTVRLEQTVARMAGKEAGLFCVSGTLSNQIAIRTHLMQPPYSILCDYRAHVYTHEAAGLAILSQAMVVPVVPSNGDYLTLEDIKSHYVPDDGDIHGAPTRLISLENTLHGIVYPLEELVRIKAWCMENGLKLHCDGARIWNAAAQSGVPLKQYGEIFDSISICLSKSMGAPIGSVLVGNLKFVKKATHFRKQQGGGIRQSGMMARMALVNINNDWKSQLLYSHSLAHELAEYCEAKGIPLESPADTNFVFINLKAARMDPDVLVKKGLKYNVKLMGGRVSFHYQVTRDTLEKVKLAISEAFDYAKEHPFDCNGPTQIYRSESTEVDVDGNAIREIKTYKY"},{"created_at":"2011-05-24T20:09:37.000Z","updated_at":"2011-07-22T17:53:50.000Z","name":"5-aminolevulinate synthase, mitochondrial","uniprot_id":"P09950","uniprot_name":"HEM1_YEAST","enzyme":true,"transporter":false,"gene_name":"HEM1","num_residues":548,"molecular_weight":"59361.69922","theoretical_pi":"7.56","general_function":"Involved in 5-aminolevulinate synthase activity","specific_function":"Succinyl-CoA + glycine = 5-aminolevulinate + CoA + CO(2)","reactions":[{"id":1213,"direction":"\u003e","locations":"mitochondrion","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2301,"direction":"\u003e","locations":"Mitochondrion matrix","altext":"Succinyl-CoA + glycine = 5-aminolevulinate + CoA + CO(2).","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Mitochondrion matrix","genbank_gene_id":"M26329","genbank_protein_id":"171662","gene_card_id":"HEM1","chromosome_location":"chromosome 4","locus":"YDR232W","synonyms":["5-aminolevulinic acid synthase","Delta-ALA synthase","Delta-aminolevulinate synthase"],"enzyme_classes":["2.3.1.37"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" N-acyltransferase activity"},{"category":"Function","description":" N-succinyltransferase activity"},{"category":"Function","description":" 5-aminolevulinate synthase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" transferase activity, transferring nitrogenous groups"},{"category":"Function","description":" cofactor binding"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Function","description":" transferase activity, transferring acyl groups"},{"category":"Function","description":" transferase activity, transferring acyl groups other than amino-acyl groups"},{"category":"Function","description":" acyltransferase activity"},{"category":"Process","description":" cellular biosynthetic process"},{"category":"Process","description":" heterocycle biosynthetic process"},{"category":"Process","description":" tetrapyrrole biosynthetic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" biosynthetic process"}],"pfams":[{"name":"Aminotran_1_2","identifier":"PF00155"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"Porphyrin and chlorophyll metabolism","kegg_map_id":"00860"},{"name":"Biosynthesis of unsaturated fatty acids (docosanoyl)","kegg_map_id":null},{"name":"Biosynthesis of unsaturated fatty acids (tetracosanoyl-CoA)","kegg_map_id":null}],"gene_sequence":"ATGCAACGCTCCATTTTTGCGAGGTTCGGTAACTCCTCTGCCGCTGTTTCCACACTGAATAGGCTGTCCACGACAGCCGCACCACATGCGAAAAATGGCTATGCCACCGCTACTGGTGCTGGTGCCGCTGCTGCCACTGCCACAGCGTCATCAACACATGCAGCAGCAGCAGCAGCCGCTGCTGCCAACCATTCCACCCAGGAGTCGGGTTTCGATTACGAAGGCCTGATAGATTCCGAACTGCAGAAGAAAAGACTTGACAAATCGTACAGATATTTCAACAATATCAACCGATTGGCCAAGGAGTTCCCCCTAGCTCATCGCCAGAGAGAGGCGGACAAGGTCACCGTTTGGTGTTCCAACGACTATTTAGCACTTTCCAAGCACCCTGAGGTATTGGACGCCATGCATAAAACTATCGACAAGTATGGTTGTGGTGCCGGTGGTACAAGAAACATTGCTGGCCATAACATCCCCACTTTGAATCTGGAAGCCGAATTGGCCACTTTACACAAGAAGGAAGGTGCCTTAGTTTTTTCGTCATGTTACGTAGCCAACGATGCCGTCTTATCCCTACTGGGTCAAAAGATGAAGGACTTGGTGATTTTCTCCGACGAACTCAACCATGCGTCCATGATTGTCGGTATTAAGCATGCTAACGTAAAAAAACACATTTTCAAACATAATGACTTGAACGAATTGGAACAACTGCTCCAGTCATACCCCAAATCCGTTCCTAAACTAATTGCTTTCGAATCAGTATATTCTATGGCCGGTTCAGTGGCCGACATAGAAAAAATTTGCGACTTGGCCGACAAATACGGTGCTTTGACCTTCTTGGATGAAGTACATGCGGTCGGCCTGTACGGCCCTCACGGTGCAGGTGTTGCAGAACATTGTGATTTTGAAAGTCACCGTGCAAGTGGTATTGCTACCCCAAAGACCAATGACAAGGGCGGCGCGAAGACTGTGATGGACCGTGTCGACATGATCACCGGCACTTTAGGTAAGTCTTTCGGTAGCGTAGGTGGCTACGTCGCAGCCTCTAGGAAATTGATCGATTGGTTCAGATCGTTTGCACCTGGTTTCATTTTCACCACGACTTTACCACCTTCAGTTATGGCAGGCGCTACCGCAGCAATTAGATACCAACGTTGCCACATCGACCTAAGAACCTCGCAACAGAAACATACCATGTACGTAAAGAAAGCTTTCCATGAGTTGGGCATTCCAGTTATTCCAAATCCTTCTCATATCGTCCCAGTGTTGATTGGTAATGCTGATTTGGCTAAGCAAGCTTCTGACATCTTAATCAATAAGCATCAAATCTACGTACAAGCTATCAACTTCCCTACGGTTGCTCGCGGTACCGAAAGATTGAGAATTACCCCAACGCCAGGTCACACCAACGATTTATCTGACATCTTAATCAATGCAGTTGATGATGTGTTCAATGAGCTACAGTTACCACGTGTCAGAGACTGGGAAAGCCAAGGTGGCTTATTGGGTGTTGGAGAGAGCGGATTTGTGGAAGAGTCTAACTTATGGACATCAAGCCAACTATCTTTAACTAATGACGACTTGAACCCTAATGTTAGAGACCCCATCGTTAAACAACTAGAGGTTTCTAGTGGTATCAAGCAGTAA","protein_sequence":"MQRSIFARFGNSSAAVSTLNRLSTTAAPHAKNGYATATGAGAAAATATASSTHAAAAAAAAANHSTQESGFDYEGLIDSELQKKRLDKSYRYFNNINRLAKEFPLAHRQREADKVTVWCSNDYLALSKHPEVLDAMHKTIDKYGCGAGGTRNIAGHNIPTLNLEAELATLHKKEGALVFSSCYVANDAVLSLLGQKMKDLVIFSDELNHASMIVGIKHANVKKHIFKHNDLNELEQLLQSYPKSVPKLIAFESVYSMAGSVADIEKICDLADKYGALTFLDEVHAVGLYGPHGAGVAEHCDFESHRASGIATPKTNDKGGAKTVMDRVDMITGTLGKSFGSVGGYVAASRKLIDWFRSFAPGFIFTTTLPPSVMAGATAAIRYQRCHIDLRTSQQKHTMYVKKAFHELGIPVIPNPSHIVPVLIGNADLAKQASDILINKHQIYVQAINFPTVARGTERLRITPTPGHTNDLSDILINAVDDVFNELQLPRVRDWESQGGLLGVGESGFVEESNLWTSSQLSLTNDDLNPNVRDPIVKQLEVSSGIKQ"},{"created_at":"2011-05-24T20:10:13.000Z","updated_at":"2011-07-22T17:54:01.000Z","name":"Alanine--glyoxylate aminotransferase 1","uniprot_id":"P43567","uniprot_name":"AGX1_YEAST","enzyme":true,"transporter":false,"gene_name":"AGX1","num_residues":385,"molecular_weight":"41906.80078","theoretical_pi":"8.14","general_function":"Involved in metabolic process","specific_function":"Has alanine:glyoxylate aminotransferase activity","reactions":[{"id":1284,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2302,"direction":"\u003e","locations":null,"altext":"L-alanine + glyoxylate = pyruvate + glycine.","export":false,"pw_reaction_id":null,"source":null},{"id":3853,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006374","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":null,"genbank_gene_id":"D50617","genbank_protein_id":"836724","gene_card_id":"AGX1","chromosome_location":"chromosome 6","locus":"YFL030W","synonyms":[],"enzyme_classes":["2.6.1.44"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" cofactor binding"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Process","description":" metabolic process"}],"pfams":[{"name":"Aminotran_5","identifier":"PF00266"}],"pathways":[{"name":"Alanine, aspartate and glutamate metabolism","kegg_map_id":"00250"},{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"glycine metabolism","kegg_map_id":null}],"gene_sequence":"ATGACTAAATCTGTAGATACGCTGCTGATCCCAGGCCCCATTATCCTAAGCGGAGCAGTCCAGAAGGCCCTGGACGTTCCCTCTTTGGGCCACACCTCTCCTGAGTTCGTCTCTATTTTTCAAAGGGTGCTAAAGAACACAAGAGCTGTCTTCAAATCCGCTGCTGCCTCGAAGTCTCAGCCTTTTGTGCTTGCCGGCTCTGGTACGTTGGGGTGGGACATATTTGCCTCGAACTTTATTCTTTCGAAGGCCCCCAACAAGAACGTGCTGGTCGTATCCACTGGGACATTTTCTGACAGGTTTGCTGACTGTCTGCGTAGCTACGGTGCGCAAGTAGATGTTGTTAGGCCCCTCAAGATAGGCGAATCAGTTCCCTTAGAACTGATTACTGAAAAGTTGTCGCAAAATAGCTATGGGGCTGTCACGGTTACGCACGTTGACACTTCAACGGCAGTGCTGTCCGATCTGAAAGCCATTTCGCAAGCGATTAAGCAGACTTCGCCGGAAACGTTCTTCGTAGTCGATGCTGTATGCTCGATTGGATGCGAAGAGTTTGAATTTGATGAATGGGGGGTGGATTTCGCCTTGACTGCTTCGCAAAAGGCTATTGGCGCTCCAGCGGGTCTTTCTATCTCGCTATGCAGTAGCAGATTCATGGATTATGCACTCAACGACAGCAAAAATGGTCATGTACATGGGTATTTTTCCTCGTTGAGAAGATGGACACCAATAATGGAAAATTATGAGGCTGGTAAAGGAGCTTATTTTGCAACCCCACCCGTACAACTAATTAATAGCCTTGATGTAGCCTTGAAAGAAATTCTCGAAGAGGGGTTGCATAAGAGATGGGATTTGCACCGTGAAATGAGTGATTGGTTTAAAGACAGTTTGGTTAATGGCTTGCAATTGACATCCGTCAGTAGGTATCCTTCTAACATGTCTGCGCACGGGTTGACAGCCGTATACGTAGCAGATCCTCCTGATGTCATTGCTTTTTTAAAGTCACACGGTGTAGTCATTGCCGGAGGTATTCACAAGGACATCGGACCCAAGTATATCCGTATTGGACATATGGGTGTGACCGCTTGCAACAAGAATTTACCGTACATGAAGAACTGCTTCGACTTAATAAAACTAGCTCTTCAGAGGAAAAAGTGA","protein_sequence":"MTKSVDTLLIPGPIILSGAVQKALDVPSLGHTSPEFVSIFQRVLKNTRAVFKSAAASKSQPFVLAGSGTLGWDIFASNFILSKAPNKNVLVVSTGTFSDRFADCLRSYGAQVDVVRPLKIGESVPLELITEKLSQNSYGAVTVTHVDTSTAVLSDLKAISQAIKQTSPETFFVVDAVCSIGCEEFEFDEWGVDFALTASQKAIGAPAGLSISLCSSRFMDYALNDSKNGHVHGYFSSLRRWTPIMENYEAGKGAYFATPPVQLINSLDVALKEILEEGLHKRWDLHREMSDWFKDSLVNGLQLTSVSRYPSNMSAHGLTAVYVADPPDVIAFLKSHGVVIAGGIHKDIGPKYIRIGHMGVTACNKNLPYMKNCFDLIKLALQRKK"},{"created_at":"2011-05-24T20:11:11.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Glycyl-tRNA synthetase 1","uniprot_id":"P38088","uniprot_name":"SYG_YEAST","enzyme":true,"transporter":false,"gene_name":"GRS1","num_residues":667,"molecular_weight":"75410.20313","theoretical_pi":"5.83","general_function":"Involved in nucleotide binding","specific_function":"Catalyzes the attachment of glycine to tRNA(Gly). Is also able produce diadenosine tetraphosphate (Ap4A), a universal pleiotropic signaling molecule needed for cell regulation pathways, by direct condensation of 2 ATPs","reactions":[{"id":1606,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2303,"direction":"\u003e","locations":"Cytoplasm. Mitochondrion;Cytoplasm","altext":"ATP + glycine + tRNA(Gly) = AMP + diphosphate + glycyl-tRNA(Gly).","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Cytoplasm. Mitochondrion","genbank_gene_id":"X78993","genbank_protein_id":"565058","gene_card_id":"GRS1","chromosome_location":"chromosome 2","locus":"YBR121C","synonyms":["Diadenosine tetraphosphate synthetase","AP-4-A synthetase","Glycine--tRNA ligase 1","GlyRS 1","GlyRS1"],"enzyme_classes":["6.1.1.14"],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Component","description":" cytoplasm"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" ligase activity, forming carbon-oxygen bonds"},{"category":"Function","description":" ligase activity, forming aminoacyl-tRNA and related compounds"},{"category":"Function","description":" aminoacyl-tRNA ligase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" nucleotide binding"},{"category":"Function","description":" ligase 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":" glycine-tRNA ligase activity"},{"category":"Process","description":" glycyl-tRNA aminoacylation"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular macromolecule metabolic process"},{"category":"Process","description":" macromolecule metabolic process"},{"category":"Process","description":" RNA metabolic process"},{"category":"Process","description":" ncRNA metabolic process"},{"category":"Process","description":" tRNA metabolic process"},{"category":"Process","description":" biosynthetic process"},{"category":"Process","description":" tRNA aminoacylation"},{"category":"Process","description":" tRNA aminoacylation for protein translation"},{"category":"Process","description":" macromolecule biosynthetic process"},{"category":"Process","description":" cellular macromolecule biosynthetic process"},{"category":"Process","description":" translation"}],"pfams":[{"name":"HGTP_anticodon","identifier":"PF03129"},{"name":"tRNA-synt_2b","identifier":"PF00587"}],"pathways":[],"gene_sequence":"ATGAGTGTAGAAGATATCAAGAAGGCTAGAGCCGCTGTTCCATTTAACAGAGAACAGCTAGAAAGTGTTTTGAGAGGAAGATTTTTTTATGCCCCAGCTTTTGACTTGTACGGTGGGGTTTCTGGTTTATATGACTATGGTCCACCAGGTTGTGCATTCCAAAACAACATCATTGACGCCTGGAGAAAGCATTTTATTTTGGAAGAAGATATGTTGGAAGTTGATTGTACTATGTTAACTCCATATGAGGTTTTGAAGACCTCAGGTCATGTTGACAAATTTTCTGATTGGATGTGTAGAGATTTGAAGACTGGTGAGATTTTCAGAGCTGACCATTTAGTCGAAGAAGTTTTGGAAGCTCGCTTAAAGGGTGACCAAGAAGCCAGAGGTTTAGTCGAGGATGCTAATGCCGCTGCTAAGGACGATGCCGAAAAGAAGAAGAGAAAGAAAAAAGTTAAACAAATTAAAGCAGTCAAATTGGATGACGACGTTGTCAAAGAATATGAAGAAATTTTGGCTAAAATAGATGGTTATTCCGGCCCAGAATTAGGTGAATTGATGGAAAAATACGATATCGGTAACCCAGTCACCGGAGAAACTTTAGAATCTCCAAGGGCTTTTAACCTGATGTTTGAAACGGCTATTGGCCCATCTGGTCAATTAAAGGGTTACTTGAGGCCAGAAACTGCCCAAGGTCAATTCTTGAATTTTAACAAGTTGTTAGAATTTAACAACAGTAAGACCCCTTTTGCCTCAGCCTCTATCGGTAAATCATTTAGAAATGAGATTTCCCCAAGGGCCGGTTTATTAAGAGTCCGTGAATTTTTGATGGCAGAGATTGAACATTTCGTTGACCCATTGGACAAATCTCATCCAAAATTTAATGAAATCAAAGACATCAAGCTTTCCTTTTTGCCTCGTGATGTTCAAGAAGCTGGTTCTACTGAACCAATTGTCAAGACAGTTGGTGAAGCAGTTGCTTCAAGAATGGTCGATAATGAAACTTTGGGTTACTTTATTGCCAGAATTTACCAATTTTTGATGAAAATTGGTGTTGATGAGTCCAAATTGAGATTCCGTCAACATATGGCTAATGAAATGGCACATTATGCTGCTGACTGTTGGGATGGTGAATTGAAGACATCTTACGGGTGGATTGAATGTGTCGGATGTGCTGATAGATCTGCCTATGATTTGACCGTTCATTCCAAAAAGACCAAAGAAAAATTGGTTGTTAGACAAAAATTAGATAATCCAATTGAAGTCACCAAGTGGGAAATTGATTTGACGAAAAAATTGTTCGGTCCAAAATTCAGAAAAGATGCACCAAAAGTTGAATCTCATCTATTGAATATGTCTCAAGATGACTTGGCTTCCAAGGCTGAGTTATTGAAGGCAAATGGCAAGTTTACTATAAAGGTTGATGGTGTTGATGGCGAAGTCGAGTTGGACGATAAATTGGTTAAAATCGAACAAAGAACAAAGGTTGAACACGTTAGAGAATATGTTCCTAGTGTCATTGAACCATCTTTCGGTATTGGCCGTATCATCTACTCCGTTTTTGAGCACTCTTTCTGGAACAGACCAGAAGACAATGCCAGAAGTGTTCTTTCCTTCCCACCTTTGGTTGCTCCAACAAAGGTTCTTTTAGTTCCTTTATCTAACCACAAAGATTTAGTTCCTGTTCATCATGAAGTCGCCAAAATCTTAAGAAAGTCTCAAATCCCATTTAAGATTGATGATTCTGGAGTTTCCATTGGTAAAAGATATGCCCGTAATGACGAATTAGGTACTCCATTCGGTGTCACCATTGACTTTGAATCTGCCAAAGACCATTCTGTCACTTTGAGAGAAAGAGATTCCACCAAGCAAGTTAGAGGTTCCGTCGAAAATGTCATCAAGGCTATCCGCGATATCACTTACAATGGTGCTTCTTGGGAAGAAGGTACCAAGGATTTGACTCCTTTTATTGCCCAAGCTGAAGCTGAAGCTGAAACTGACTAA","protein_sequence":"MSVEDIKKARAAVPFNREQLESVLRGRFFYAPAFDLYGGVSGLYDYGPPGCAFQNNIIDAWRKHFILEEDMLEVDCTMLTPYEVLKTSGHVDKFSDWMCRDLKTGEIFRADHLVEEVLEARLKGDQEARGLVEDANAAAKDDAEKKKRKKKVKQIKAVKLDDDVVKEYEEILAKIDGYSGPELGELMEKYDIGNPVTGETLESPRAFNLMFETAIGPSGQLKGYLRPETAQGQFLNFNKLLEFNNSKTPFASASIGKSFRNEISPRAGLLRVREFLMAEIEHFVDPLDKSHPKFNEIKDIKLSFLPRDVQEAGSTEPIVKTVGEAVASRMVDNETLGYFIARIYQFLMKIGVDESKLRFRQHMANEMAHYAADCWDGELKTSYGWIECVGCADRSAYDLTVHSKKTKEKLVVRQKLDNPIEVTKWEIDLTKKLFGPKFRKDAPKVESHLLNMSQDDLASKAELLKANGKFTIKVDGVDGEVELDDKLVKIEQRTKVEHVREYVPSVIEPSFGIGRIIYSVFEHSFWNRPEDNARSVLSFPPLVAPTKVLLVPLSNHKDLVPVHHEVAKILRKSQIPFKIDDSGVSIGKRYARNDELGTPFGVTIDFESAKDHSVTLRERDSTKQVRGSVENVIKAIRDITYNGASWEEGTKDLTPFIAQAEAEAETD"},{"created_at":"2011-05-24T20:11:48.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Tryptophan permease","uniprot_id":"P38967","uniprot_name":"TAT2_YEAST","enzyme":false,"transporter":true,"gene_name":"TAT2","num_residues":592,"molecular_weight":"65403.80078","theoretical_pi":"8.42","general_function":"Involved in transport","specific_function":"Required for high-affinity tryptophan transport. Also transports cysteine, phenyalanine and tyrosine","reactions":[],"signal_regions":"None","transmembrane_regions":"88-108;114-134;161-181;193-213;227-247;267-287;307-327;359-379;405-425;429-449;473-493;515-535","pdb_id":null,"cellular_location":"Membrane; Multi-pass membrane protein","genbank_gene_id":"D16304","genbank_protein_id":"1113091","gene_card_id":"TAT2","chromosome_location":"chromosome 15","locus":"YOL020W","synonyms":["Tryptophan amino acid transporter"],"enzyme_classes":[],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" membrane"},{"category":"Component","description":" membrane part"},{"category":"Component","description":" intrinsic to membrane"},{"category":"Component","description":" integral to membrane"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transporter activity"},{"category":"Function","description":" transmembrane transporter activity"},{"category":"Function","description":" active transmembrane transporter activity"},{"category":"Function","description":" amine transmembrane transporter activity"},{"category":"Function","description":" amino acid transmembrane transporter activity"},{"category":"Process","description":" amino acid transport"},{"category":"Process","description":" transmembrane transport"},{"category":"Process","description":" establishment of localization"},{"category":"Process","description":" transport"},{"category":"Process","description":" amine transport"}],"pfams":[{"name":"AA_permease","identifier":"PF00324"}],"pathways":[],"gene_sequence":"ATGACCGAAGACTTTATTTCTTCTGTCAAGCGTTCAAATGAGGAGCTGAAGGAGCGAAAATCTAACTTTGGATTTGTAGAATACAAATCCAAGCAATTAACATCATCCTCATCACACAATTCAAACTCATCGCATCACGATGATGACAACCAACACGGCAAGAGGAATATTTTCCAGCGATGTGTTGATTCTTTCAAGTCTCCTCTGGACGGCTCGTTCGACACAAGTAATTTGAAGAGGACTCTGAAACCAAGGCACTTAATCATGATTGCCATTGGGGGCAGTATAGGTACTGGTTTGTTTGTCGGTAGTGGTAAGGCAATCGCCGAAGGTGGTCCTCTTGGTGTCGTCATTGGTTGGGCTATTGCAGGCTCTCAAATCATCGGGACGATTCATGGGCTAGGTGAAATCACGGTGCGGTTCCCCGTTGTCGGGGCCTTTGCCAATTACGGCACAAGGTTTTTGGATCCAAGTATAAGTTTTGTTGTTTCGACCATATACGTGCTACAGTGGTTTTTTGTATTACCCTTAGAAATCATTGCGGCGGCAATGACCGTAACGTACTGGAACTCGTCTATTGACCCCGTAATTTGGGTAGCCATCTTTTATGCTGTTATTGTTTCCATAAATTTGTTTGGTGTACGAGGTTTTGGGGAAGCGGAATTTGCATTTTCCACCATAAAAGCAATAACAGTTTGCGGATTCATTATATTGTGCGTTGTCCTCATTTGCGGTGGAGGTCCCGACCACGAGTTCATTGGCGCCAAATACTGGCACGACCCTGGTTGTTTGGCCAATGGGTTCCCGGGCGTTCTATCTGTTCTTGTTGTTGCTTCGTATTCTCTCGGTGGTATAGAAATGACGTGCCTGGCATCAGGTGAAACGGACCCCAAAGGCTTACCAAGTGCTATCAAGCAAGTGTTTTGGAGGATCTTATTTTTCTTTTTGATATCACTGACCCTGGTAGGATTCCTGGTTCCATATACAAACCAAAACTTACTGGGTGGTTCATCTGTGGACAACTCACCTTTTGTCATTGCCATAAAATTGCATCACATTAAAGCCTTGCCCTCCATCGTCAATGCGGTCATCCTTATCAGTGTTTTGAGTGTAGGTAACTCCTGCATCTTCGCTTCAAGTAGAACGTTGTGTTCGATGGCCCACCAAGGCCTTATTCCATGGTGGTTTGGTTATATCGACCGTGCTGGTAGGCCGCTGGTTGGCATTATGGCAAATTCACTATTTGGATTACTAGCATTTCTGGTCAAATCTGGCTCGATGTCTGAAGTTTTCAATTGGTTAATGGCCATTGCCGGCCTGGCCACGTGCATTGTCTGGTTGAGCATCAACCTGTCACATATCAGATTTAGACTGGCGATGAAGGCTCAAGGGAAGTCTCTGGATGAATTAGAATTTGTTAGTGCTGTCGGGATTTGGGGATCAGCGTATTCCGCTTTAATCAACTGTCTAATCTTGATAGCTCAATTCTATTGTTCACTATGGCCCATTGGTGGCTGGACCAGCGGCAAAGAAAGGGCTAAAATATTTTTTCAAAATTATCTGTGTGCCTTAATCATGTTATTTATATTCATCGTCCACAAAATTTATTACAAGTGTCAAACAGGCAAATGGTGGGGGGTTAAGGCGTTAAAGGACATAGATTTGGAAACCGATCGTAAAGATATCGACATCGAAATAGTCAAGCAAGAAATTGCCGAAAAGAAAATGTACCTAGATTCCCGTCCATGGTACGTGAGACAGTTCCATTTCTGGTGTTAA","protein_sequence":"MTEDFISSVKRSNEELKERKSNFGFVEYKSKQLTSSSSHNSNSSHHDDDNQHGKRNIFQRCVDSFKSPLDGSFDTSNLKRTLKPRHLIMIAIGGSIGTGLFVGSGKAIAEGGPLGVVIGWAIAGSQIIGTIHGLGEITVRFPVVGAFANYGTRFLDPSISFVVSTIYVLQWFFVLPLEIIAAAMTVQYWNSSIDPVIWVAIFYAVIVSINLFGVRGFGEAEFAFSTIKAITVCGFIILCVVLICGGGPDHEFIGAKYWHDPGCLANGFPGVLSVLVVASYSLGGIEMTCLASGETDPKGLPSAIKQVFWRILFFFLISLTLVGFLVPYTNQNLLGGSSVDNSPFVIAIKLHHIKALPSIVNAVILISVLSVGNSCIFASSRTLCSMAHQGLIPWWFGYIDRAGRPLVGIMANSLFGLLAFLVKSGSMSEVFNWLMAIAGLATCIVWLSINLSHIRFRLAMKAQGKSLDELEFVSAVGIWGSAYSALINCLILIAQFYCSLWPIGGWTSGKERAKIFFQNYLCALIMLFIFIVHKIYYKCQTGKWWGVKALKDIDLETDRKDIDIEIVKQEIAEKKMYLDSRPWYVRQFHFWC"},{"created_at":"2011-05-24T20:12:36.000Z","updated_at":"2011-05-24T20:12:36.000Z","name":"Bifunctional purine biosynthetic protein ADE5,7","uniprot_id":"P07244","uniprot_name":"PUR2_YEAST","enzyme":true,"transporter":false,"gene_name":"ADE5","num_residues":802,"molecular_weight":"86067.39844","theoretical_pi":"4.89","general_function":"Involved in catalytic activity","specific_function":"ATP + 5-phospho-D-ribosylamine + glycine = ADP + phosphate + N(1)-(5-phospho-D-ribosyl)glycinamide","reactions":[{"id":1885,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":1891,"direction":"\u003c\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2304,"direction":"\u003e","locations":null,"altext":"ATP + 5-phospho-D-ribosylamine + glycine = ADP + phosphate + N(1)-(5-phospho-D-ribosyl)glycinamide.","export":false,"pw_reaction_id":null,"source":null},{"id":2305,"direction":"\u003e","locations":null,"altext":"ATP + 2-(formamido)-N(1)-(5-phospho-D-ribosyl)acetamidine = ADP + phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole.","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":null,"genbank_gene_id":"X04337","genbank_protein_id":"3335","gene_card_id":"ADE5","chromosome_location":null,"locus":"YGL234W","synonyms":["Phosphoribosylamine--glycine ligase","Glycinamide ribonucleotide synthetase","GARS","Phosphoribosylglycinamide synthetase","Phosphoribosylformylglycinamidine cyclo-ligase","AIR synthase","AIRS","Phosphoribosyl-aminoimidazole synthetase"],"enzyme_classes":["6.3.4.13","6.3.3.1"],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Component","description":" cytoplasm"},{"category":"Function","description":" cyclo-ligase activity"},{"category":"Function","description":" phosphoribosylformylglycinamidine cyclo-ligase activity"},{"category":"Function","description":" phosphoribosylamine-glycine ligase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" ligase activity"},{"category":"Function","description":" ligase activity, forming carbon-nitrogen bonds"},{"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":"Process","description":" purine nucleotide biosynthetic process"},{"category":"Process","description":" purine base metabolic process"},{"category":"Process","description":" purine nucleoside monophosphate biosynthetic process"},{"category":"Process","description":" purine base biosynthetic process"},{"category":"Process","description":" purine ribonucleoside monophosphate biosynthetic process"},{"category":"Process","description":" IMP biosynthetic process"},{"category":"Process","description":" 'de novo' IMP biosynthetic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" nitrogen compound metabolic process"},{"category":"Process","description":" cellular nitrogen compound metabolic process"},{"category":"Process","description":" nucleobase, nucleoside, nucleotide and nucleic acid metabolic process"},{"category":"Process","description":" nucleobase, nucleoside and nucleotide metabolic process"},{"category":"Process","description":" nucleoside phosphate metabolic process"},{"category":"Process","description":" nucleotide metabolic process"},{"category":"Process","description":" cellular aromatic compound metabolic process"},{"category":"Process","description":" purine nucleotide metabolic process"},{"category":"Process","description":" nucleobase metabolic process"}],"pfams":[{"name":"AIRS","identifier":"PF00586"},{"name":"AIRS_C","identifier":"PF02769"},{"name":"GARS_A","identifier":"PF01071"},{"name":"GARS_C","identifier":"PF02843"},{"name":"GARS_N","identifier":"PF02844"}],"pathways":[{"name":"Purine metabolism","kegg_map_id":"00230"}],"gene_sequence":"ATGCTCAACATTCTCGTTTTAGGAAACGGTGCAAGAGAACACGTTCTTGTCACCAAGCTGGCTCAGTCACCCACCGTGGGTAAGATCTATGTCGCTCCAGGTAATGGAGGGACCGCAACCATGGATCCTTCGCGTGTGATAAACTGGGATATTACGCCAGATGTCGCCAATTTTGCTCGTTTGCAGTCGATGGCTGTGGAACATAAGATCAACTTGGTCGTTCCTGGTCCAGAATTACCTCTAGTCAACGGCATCACCTCCGTGTTCCATAGCGTTGGTATTCCCGTTTTTGGACCTTCCGTCAAAGCCGCTCAGTTGGAAGCTTCCAAGGCTTTCTCCAAGAGATTTATGTCAAAACACAATATTCCAACCGCGTCTTATGATGTCTTCACTAATCCAGAAGAAGCCATTTCATTCTTGCAAGCTCATACTGACAAAGCTTTTGTCATCAAGGCCGACGGGATCGCTGCTGGGAAAGGTGTTATTATCCCATCTAGCATCGACGAGTCCGTCCAAGCTATCAAGGACATAATGGTCACCAAGCAATTCGGTGAAGAAGCGGGCAAGCAGGTTGTGATAGAACAATTCTTGGAAGGTGATGAAATCTCTCTACTCACCATTGTTGACGGGTACTCTCACTTCAATCTCCCCGTCGCACAAGATCACAAGAGGATCTTTGATGGCGACAAGGGCTTGAACACCGGTGGGATGGGTGCCTATGCCCCCGCTCCTGTGGCCACACCATCTTTGTTGAAGACCATAGATTCACAGATTGTGAAGCCTACGATTGATGGGATGAGACGTGATGGTATGCCCTTTGTTGGTGTGCTGTTCACCGGGATGATTTTGGTGAAGGATTCTAAGACAAATCAACTTGTTCCCGAAGTGTTAGAATATAATGTCAGATTCGGTGACCCAGAGACACAGGCTGTTTTGAGTTTACTTGATGATCAAACCGATTTGGCGCAAGTGTTTTTGGCTGCTGCTGAACATCGTTTGGATTCCGTAAACATAGGAATCGATGACACAAGATCTGCCGTTACTGTCGTAGTGGCTGCAGGTGGTTATCCTGAATCATACGCCAAAGGTGACAAAATTACCTTGGATACCGATAAATTACCTCCACATACACAAATCTTCCAAGCAGGTACCAAATACGATTCCGCCACCGATTCTTTATTGACCAATGGTGGTAGAGTTCTTTCTGTGACCTCCACTGCTCAGGACTTGAGAACAGCAGTAGATACAGTATATGAAGCCGTCAAATGCGTCCATTTCCAAAATTCTTACTACAGAAAGGACATCGCATACCGTGCGTTCCAAAACTCAGAATCATCAAAAGTTGCCATCACATACGCAGACTCAGGTGTCTCTGTTGATAATGGTAACAATCTCGTACAAACTATCAAAGAAATGGTCAGATCCACAAGAAGGCCAGGTGCAGACTCTGATATTGGTGGTTTTGGTGGTTTATTCGATTTGGCTCAAGCAGGTTTCCGTCAAAACGAAGATACCTTACTAGTAGGTGCTACAGATGGTGTCGGTACTAAATTAATCATTGCCCAAGAGACCGGGATTCATAATACTGTCGGTATTGACCTGGTGGCCATGAATGTTAACGATTTGGTGGTACAAGGTGCTGAGCCTCTATTCTTTTTGGACTACTTTGCCACTGGTGCTCTTGACATTCAAGTTGCCTCTGATTTTGTGTCCGGTGTTGCTAATGGTTGTATTCAAAGTGGTTGTGCTCTTGTGGGTGGTGAAACTTCGGAAATGCCCGGTATGTATCCACCCGGCCACTACGATACTAATGGTACCGCTGTTGGTGCTGTATTAAGACAAGATATCTTGCCCAAGATAAATGAAATGGCCGCAGGAGATGTTCTTCTGGGTCTCGCCTCTAGCGGTGTTCATTCTAATGGTTTCTCTTTGGTTAGAAAAATTATTCAACATGTAGCATTACCATGGGACGCTCCATGTCCATGGGATGAATCTAAGACGTTAGGTGAAGGTATTCTTGAACCAACAAAAATTTACGTCAAGCAATTATTGCCATCAATTAGACAAAGACTACTACTAGGTTTAGCTCATATAACAGGTGGTGGTTTAGTAGAGAATATCCCAAGAGCTATTCCAGACCACCTACAGGCCCGCGTTGATATGTCAACCTGGGAAGTACCCCGTGTCTTCAAATGGTTTGGTCAAGCAGGTAATGTTCCACACGATGACATTTTAAGAACCTTCAACATGGGTGTTGGTATGGTTTTGATTGTCAAGAGAGAAAACGTCAAGGCTGTTTGTGATTCATTGACTGAAGAAGGTGAAATTATTTGGGAGCTTGGTTCTTTGCAAGAAAGACCAAAGGATGCTCCCGGTTGTGTGATTGAAAACGGAACTAAGCTTTACTAA","protein_sequence":"MLNILVLGNGAREHVLVTKLAQSPTVGKIYVAPGNGGTATMDPSRVINWDITPDVANFARLQSMAVEHKINLVVPGPELPLVNGITSVFHSVGIPVFGPSVKAAQLEASKAFSKRFMSKHNIPTASYDVFTNPEEAISFLQAHTDKAFVIKADGIAAGKGVIIPSSIDESVQAIKDIMVTKQFGEEAGKQVVIEQFLEGDEISLLTIVDGYSHFNLPVAQDHKRIFDGDKGLNTGGMGAYAPAPVATPSLLKTIDSQIVKPTIDGMRRDGMPFVGVLFTGMILVKDSKTNQLVPEVLEYNVRFGDPETQAVLSLLDDQTDLAQVFLAAAEHRLDSVNIGIDDTRSAVTVVVAAGGYPESYAKGDKITLDTDKLPPHTQIFQAGTKYDSATDSLLTNGGRVLSVTSTAQDLRTAVDTVYEAVKCVHFQNSYYRKDIAYRAFQNSESSKVAITYADSGVSVDNGNNLVQTIKEMVRSTRRPGADSDIGGFGGLFDLAQAGFRQNEDTLLVGATDGVGTKLIIAQETGIHNTVGIDLVAMNVNDLVVQGAEPLFFLDYFATGALDIQVASDFVSGVANGCIQSGCALVGGETSEMPGMYPPGHYDTNGTAVGAVLRQDILPKINEMAAGDVLLGLASSGVHSNGFSLVRKIIQHVALPWDAPCPWDESKTLGEGILEPTKIYVKQLLPSIRQRLLLGLAHITGGGLVENIPRAIPDHLQARVDMSTWEVPRVFKWFGQAGNVPHDDILRTFNMGVGMVLIVKRENVKAVCDSLTEEGEIIWELGSLQERPKDAPGCVIENGTKLY"},{"created_at":"2011-05-24T20:13:28.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Glycyl-tRNA synthetase 2","uniprot_id":"Q06817","uniprot_name":"SYG2_YEAST","enzyme":true,"transporter":false,"gene_name":"GRS2","num_residues":618,"molecular_weight":"71017.89844","theoretical_pi":"7.58","general_function":"Involved in nucleotide binding","specific_function":"Catalyzes the attachment of glycine to tRNA(Gly). Is also able produce diadenosine tetraphosphate (Ap4A), a universal pleiotropic signaling molecule needed for cell regulation pathways, by direct condensation of 2 ATPs","reactions":[{"id":1606,"direction":"\u003e","locations":"cytoplasm","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2303,"direction":"\u003e","locations":"Cytoplasm. Mitochondrion;Cytoplasm","altext":"ATP + glycine + tRNA(Gly) = AMP + diphosphate + glycyl-tRNA(Gly).","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Cytoplasm","genbank_gene_id":"U51033","genbank_protein_id":"1230687","gene_card_id":"GRS2","chromosome_location":"chromosome 16","locus":"YPR081C","synonyms":["Diadenosine tetraphosphate synthetase","AP-4-A synthetase","Glycine--tRNA ligase 2","GlyRS 2","GlyRS2"],"enzyme_classes":["6.1.1.14"],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Component","description":" cytoplasm"},{"category":"Function","description":" adenyl ribonucleotide binding"},{"category":"Function","description":" ATP binding"},{"category":"Function","description":" ligase activity, forming carbon-oxygen bonds"},{"category":"Function","description":" ligase activity, forming aminoacyl-tRNA and related compounds"},{"category":"Function","description":" aminoacyl-tRNA ligase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" nucleotide binding"},{"category":"Function","description":" ligase 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":" glycine-tRNA ligase activity"},{"category":"Process","description":" glycyl-tRNA aminoacylation"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular macromolecule metabolic process"},{"category":"Process","description":" macromolecule metabolic process"},{"category":"Process","description":" RNA metabolic process"},{"category":"Process","description":" ncRNA metabolic process"},{"category":"Process","description":" tRNA metabolic process"},{"category":"Process","description":" biosynthetic process"},{"category":"Process","description":" tRNA aminoacylation"},{"category":"Process","description":" tRNA aminoacylation for protein translation"},{"category":"Process","description":" macromolecule biosynthetic process"},{"category":"Process","description":" cellular macromolecule biosynthetic process"},{"category":"Process","description":" translation"}],"pfams":[{"name":"HGTP_anticodon","identifier":"PF03129"},{"name":"tRNA-synt_2b","identifier":"PF00587"}],"pathways":[],"gene_sequence":"ATGCCGTTAATGTCCAATTCGGAAAGAGATAAATTGGAAAGTACATTGAGGAGAAGGTTTTTCTACACACCCTCGTTTGAGATATATGGTGGTGTGTCAGGTTTATTTGATTTAGGGCCTCCGGGTTGTCAGTTGCAAAATAACTTGATTCGACTGTGGCGAGAACATTTTATTATGGAAGAAAACATGCTTCAGGTTGATGGGCCAATGCTAACTCCTTACGATGTGTTGAAGACTTCTGGGCATGTAGACAAATTTACTGATTGGATGTGCCGAAATCCTAAGACTGGGGAATACTACAGAGCAGACCATTTGATTGAACAGACGTTGAAAAAACGGCTGTTGGACAAGGATGTCAATCCACAGGATATGAAAAATATGGAGAAAATATTGACCACGATTGACGGGTTTTCGGGTCCTGAGTTGAATCTCGTCATGCAGGAATATAACATTAATGATCCAGTCACTAACGATGTTTTAGACGCACTAACTTCCTTTAATTTGATGTTCGAAACTAAAATTGGAGCCTCAGGACAATTGAAGGCCTTTCTAAGGCCAGAGACTGCACAAGGACAATTTCTCAATTTCAACAAATTATTGGAAATCAACCAAGGGAAAATTCCGTTTGCTTCAGCTTCCATTGGTAAGTCATTCAGAAACGAAATTTCCCCCAGAAGTGGGCTTTTAAGGGTAAGAGAGTTTTTAATGGCAGAAATTGAGCACTTTGTTGATCCGTTGAATAAGTCACATGCAAAATTCAATGAAGTGTTAAATGAGGAGATTCCACTACTATCACGCAGATTACAGGAAAGTGGTGAAGTCCAACTGCCTGTGAAAATGACTATAGGAGAGGCAGTGAATTCTGGAATGGTAGAAAATGAAACATTGGGATATTTTATGGCAAGAGTTCATCAATTTTTGTTGAATATTGGGATCAACAAGGACAAATTCAGATTTCGCCAGCATTTGAAGAATGAAATGGCACACTATGCCACAGATTGTTGGGACGGTGAAATTTTAACATCGTATGGTTGGATTGAATGTGTCGGTTGTGCTGACAGGGCGGCTTTTGATTTAACTGTACACTCCAAGAAAACGGGAAGAAGTCTGACGGTAAAGCAAAAGCTAGATACACCAAAAGAAAGAACCGAGTGGGTTGTGGAAGTGAATAAGAAATTTTTCGGATCGAAGTTCAAACAGAAAGCAAAATTAATCGAATCTGTTTTGTCAAAATTTTCCCAGGATGAATTGATTAGGAGGCATGAAGAACTGGAAAAGAACGGTGAATTTACCTGTCAAGTAAATGGCCAGATCGTAAAACTAGATAGCAGTTTGGTTACTATCAAAATGAAGACAACTTTGCAACATATACGAGAGTACATTCCTAATGTCATTGAGCCCTCGTTCGGTTTAGGTCGTATCATATACTGCATCTTCGACCATTGTTTCCAAGTTCGAGTGGATAGTGAGTCAAGAGGCTTCTTCTCTTTTCCATTACAGATAGCGCCGATCAAAGTATTTGTTACGACAATATCGAATAACGATGGCTTCCCCGCTATACTTAAGAGGATCTCGCAGGCTTTACGTAAAAGAGAGATATACTTTAAAATTGACGATTCCAATACTTCAATTGGTAAAAAATACGCCCGTAACGATGAATTGGGAACACCATTTGGTATCACCATAGATTTCGAAACTATAAAAGACCAAACGGTGACGTTAAGAGAAAGAAATTCTATGAGGCAAGTAAGAGGCACTATTACTGATGTGATTTCGACCATTGACAAAATGCTTCACAACCCTGATGAATCGGACTGGGATAAATCAACATTTGGACTGTCGCCTGTTAAGATATAA","protein_sequence":"MPLMSNSERDKLESTLRRRFFYTPSFEIYGGVSGLFDLGPPGCQLQNNLIRLWREHFIMEENMLQVDGPMLTPYDVLKTSGHVDKFTDWMCRNPKTGEYYRADHLIEQTLKKRLLDKDVNPQDMKNMEKILTTIDGFSGPELNLVMQEYNINDPVTNDVLDALTSFNLMFETKIGASGQLKAFLRPETAQGQFLNFNKLLEINQGKIPFASASIGKSFRNEISPRSGLLRVREFLMAEIEHFVDPLNKSHAKFNEVLNEEIPLLSRRLQESGEVQLPVKMTIGEAVNSGMVENETLGYFMARVHQFLLNIGINKDKFRFRQHLKNEMAHYATDCWDGEILTSYGWIECVGCADRAAFDLTVHSKKTGRSLTVKQKLDTPKERTEWVVEVNKKFFGSKFKQKAKLIESVLSKFSQDELIRRHEELEKNGEFTCQVNGQIVKLDSSLVTIKMKTTLQHIREYIPNVIEPSFGLGRIIYCIFDHCFQVRVDSESRGFFSFPLQIAPIKVFVTTISNNDGFPAILKRISQALRKREIYFKIDDSNTSIGKKYARNDELGTPFGITIDFETIKDQTVTLRERNSMRQVRGTITDVISTIDKMLHNPDESDWDKSTFGLSPVKI"},{"created_at":"2011-05-24T20:14:31.000Z","updated_at":"2011-05-27T14:56:00.000Z","name":"Dihydrolipoyl dehydrogenase, mitochondrial","uniprot_id":"P09624","uniprot_name":"DLDH_YEAST","enzyme":true,"transporter":false,"gene_name":"LPD1","num_residues":499,"molecular_weight":"54009.69922","theoretical_pi":"8.22","general_function":"Involved in oxidoreductase activity","specific_function":"Lipoamide dehydrogenase is a component of the alpha- ketoacid dehydrogenase complexes. This includes the pyruvate dehydrogenase complex, which catalyzes the overall conversion of pyruvate to acetyl-CoA and CO(2). Acts also as component of the glycine cleavage system (glycine decarboxylase complex), which catalyzes the degradation of glycine","reactions":[{"id":2306,"direction":"\u003e","locations":"Mitochondrion matrix","altext":"Protein N(6)-(dihydrolipoyl)lysine + NAD(+) = protein N(6)-(lipoyl)lysine + NADH.","export":false,"pw_reaction_id":null,"source":null}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":"1V59","cellular_location":"Mitochondrion matrix","genbank_gene_id":"D50617","genbank_protein_id":"836736","gene_card_id":"LPD1","chromosome_location":"chromosome 6","locus":"YFL018C","synonyms":["Dihydrolipoamide dehydrogenase","Glycine decarboxylase complex subunit L","Lipoamide dehydrogenase component of pyruvate dehydrogenase complex","Pyruvate dehydrogenase complex E3 component"],"enzyme_classes":["1.8.1.4"],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Component","description":" cytoplasm"},{"category":"Function","description":" oxidoreductase activity, acting on NADH or NADPH"},{"category":"Function","description":" oxidoreductase activity, acting on a sulfur group of donors, NAD or NADP as acceptor"},{"category":"Function","description":" dihydrolipoyl dehydrogenase activity"},{"category":"Function","description":" catalytic 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":" FAD or FADH2 binding"},{"category":"Function","description":" oxidoreductase activity"},{"category":"Process","description":" cellular process"},{"category":"Process","description":" cellular homeostasis"},{"category":"Process","description":" cell redox homeostasis"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" oxidation reduction"}],"pfams":[{"name":"Pyr_redox","identifier":"PF00070"},{"name":"Pyr_redox_2","identifier":"PF07992"},{"name":"Pyr_redox_dim","identifier":"PF02852"}],"pathways":[{"name":"Glycolysis / Gluconeogenesis","kegg_map_id":"00010"},{"name":"Citrate cycle (TCA cycle)","kegg_map_id":"00020"},{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"Valine, leucine and isoleucine degradation","kegg_map_id":"00280"},{"name":"Pyruvate metabolism","kegg_map_id":"00620"}],"gene_sequence":"ATGTTAAGAATCAGATCACTCCTAAATAATAAGCGTGCCTTTTCGTCCACAGTCAGGACATTGACCATTAACAAGTCACATGATGTAGTCATCATCGGTGGTGGCCCTGCTGGTTACGTGGCTGCTATCAAAGCTGCTCAATTGGGATTTAACACTGCATGTGTAGAAAAAAGAGGCAAATTAGGCGGTACCTGTCTTAACGTTGGATGTATCCCCTCCAAAGCACTTCTAAATAATTCTCATTTATTCCACCAAATGCATACGGAAGCGCAAAAGAGAGGTATTGACGTCAACGGTGATATCAAAATTAACGTAGCAAACTTCCAAAAGGCTAAGGATGACGCTGTTAAGCAATTAACTGGAGGTATTGAGCTTCTGTTCAAGAAAAATAAGGTCACCTATTATAAAGGTAATGGTTCATTCGAAGACGAAACGAAGATCAGAGTAACTCCCGTTGATGGGTTGGAAGGCACTGTCAAGGAAGACCACATACTAGATGTTAAGAACATCATAGTCGCCACGGGCTCTGAAGTTACACCCTTCCCCGGTATTGAAATAGATGAGGAAAAAATTGTCTCTTCAACAGGTGCTCTTTCGTTAAAGGAAATTCCCAAAAGATTAACCATCATTGGTGGAGGAATCATCGGATTGGAAATGGGTTCAGTTTACTCTAGATTAGGCTCCAAGGTTACTGTAGTAGAATTTCAACCTCAAATTGGTGCATCTATGGACGGCGAGGTTGCCAAAGCCACCCAAAAGTTCTTGAAAAAGCAAGGTTTGGACTTCAAATTAAGCACCAAAGTTATTTCTGCAAAGAGAAACGACGACAAGAACGTCGTCGAAATTGTTGTAGAAGATACTAAAACGAATAAGCAAGAAAATTTGGAAGCTGAAGTTTTGCTGGTTGCTGTTGGTAGAAGACCTTACATTGCTGGCTTAGGGGCTGAAAAGATTGGATTAGAAGTAGACAAAAGGGGACGCCTAGTCATTGATGACCAATTTAATTCCAAGTTCCCACACATTAAAGTGGTAGGAGATGTTACATTTGGTCCAATGCTGGCTCACAAAGCCGAAGAGGAAGGTATTGCAGCTGTCGAAATGTTGAAAACTGGTCACGGTCATGTCAACTATAACAACATTCCTTCGGTCATGTATTCTCACCCAGAAGTAGCATGGGTTGGTAAAACCGAAGAGCAATTGAAAGAAGCCGGCATTGACTATAAAATTGGTAAGTTCCCCTTTGCGGCCAATTCAAGAGCCAAGACCAACCAAGACACTGAAGGTTTCGTGAAGATTTTGATCGATTCCAAGACCGAGCGTATTTTGGGGGCTCACATTATCGGTCCAAATGCCGGTGAAATGATTGCTGAAGCTGGCTTAGCCTTAGAATATGGCGCTTCCGCAGAAGATGTTGCTAGGGTCTGCCATGCTCATCCTACTTTGTCCGAAGCATTTAAGGAAGCTAACATGGCTGCCTATGATAAAGCTATTCATTGTTGA","protein_sequence":"MLRIRSLLNNKRAFSSTVRTLTINKSHDVVIIGGGPAGYVAAIKAAQLGFNTACVEKRGKLGGTCLNVGCIPSKALLNNSHLFHQMHTEAQKRGIDVNGDIKINVANFQKAKDDAVKQLTGGIELLFKKNKVTYYKGNGSFEDETKIRVTPVDGLEGTVKEDHILDVKNIIVATGSEVTPFPGIEIDEEKIVSSTGALSLKEIPKRLTIIGGGIIGLEMGSVYSRLGSKVTVVEFQPQIGASMDGEVAKATQKFLKKQGLDFKLSTKVISAKRNDDKNVVEIVVEDTKTNKQENLEAEVLLVAVGRRPYIAGLGAEKIGLEVDKRGRLVIDDQFNSKFPHIKVVGDVTFGPMLAHKAEEEGIAAVEMLKTGHGHVNYNNIPSVMYSHPEVAWVGKTEEQLKEAGIDYKIGKFPFAANSRAKTNQDTEGFVKILIDSKTERILGAHIIGPNAGEMIAEAGLALEYGASAEDVARVCHAHPTLSEAFKEANMAAYDKAIHC"},{"created_at":"2011-05-24T21:32:47.000Z","updated_at":"2011-05-27T15:00:58.000Z","name":"Serine palmitoyltransferase 1","uniprot_id":"P25045","uniprot_name":"LCB1_YEAST","enzyme":true,"transporter":false,"gene_name":"LCB1","num_residues":558,"molecular_weight":"62206.60156","theoretical_pi":"6.1","general_function":"Involved in transferase activity, transferring nitrogenous groups","specific_function":"Component of serine palmitoyltransferase (SPT), which catalyzes the committed step in the synthesis of sphingolipids, the condensation of serine with palmitoyl CoA to form the long chain base 3-ketosphinganine","reactions":[{"id":1962,"direction":"\u003e","locations":"endoplasmic reticulum","altext":null,"export":true,"pw_reaction_id":null,"source":null},{"id":2391,"direction":"\u003e","locations":"Cytoplasm. Endoplasmic reticulum. Membrane; Multi-pass membrane protein (Potential);Cytoplasm. Endoplasmic reticulum membrane; Multi-pass membrane protein","altext":"Palmitoyl-CoA + L-serine = CoA + 3-dehydro-D-sphinganine + CO(2).","export":false,"pw_reaction_id":null,"source":null},{"id":3861,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006382","source":"Smpdb"},{"id":3891,"direction":null,"locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006410","source":"Smpdb"},{"id":3892,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006826","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"50-84;342-371;425-457","pdb_id":null,"cellular_location":"Cytoplasm. Endoplasmic reticulum membrane; Multi-pass membrane protein","genbank_gene_id":"AY693052","genbank_protein_id":"51013555","gene_card_id":"LCB1","chromosome_location":"chromosome 13","locus":"YMR296C","synonyms":["SPT 1","SPT1","Long chain base biosynthesis protein 1"],"enzyme_classes":["2.3.1.50"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" binding"},{"category":"Function","description":" transferase activity, transferring nitrogenous groups"},{"category":"Function","description":" cofactor binding"},{"category":"Function","description":" pyridoxal phosphate binding"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" biosynthetic process"}],"pfams":[{"name":"Aminotran_1_2","identifier":"PF00155"}],"pathways":[{"name":"Sphingolipid metabolism","kegg_map_id":"00600"},{"name":"Biosynthesis of unsaturated fatty acids","kegg_map_id":"01040"},{"name":"Biosynthesis of unsaturated fatty acids (icosanoyl)","kegg_map_id":null},{"name":"Biosynthesis of unsaturated fatty acids (stearoyl)","kegg_map_id":null}],"gene_sequence":"ATGGCACACATCCCAGAGGTTTTACCCAAATCAATACCGATTCCGGCATTTATTGTTACCACCTCATCGTACCTATGGTACTACTTCAATCTGGTGTTGACTCAAATCCCGGGAGGCCAATTCATCGTTTCGTACATCAAGAAATCGCATCATGACGATCCATACAGGACCACGGTTGAGATAGGGCTTATTTTATACGGGATCATCTATTACTTGTCCAAGCCACAACAGAAAAAGAGTCTTCAAGCACAGAAGCCCAACCTATCGCCCCAGGAGATTGACGCGCTAATTGAGGACTGGGAGCCCGAGCCTCTAGTCGACCCTTCTGCCACCGATGAGCAATCGTGGAGGGTGGCCAAAACACCCGTCACCATGGAAATGCCCATTCAGAACCATATTACTATCACCAGAAACAACCTGCAGGAGAAGTATACCAATGTTTTCAATTTGGCCTCGAACAACTTTTTGCAATTGTCCGCTACGGAGCCCGTGAAAGAAGTGGTCAAGACCACTATCAAGAATTACGGTGTGGGCGCCTGTGGTCCCGCCGGGTTCTACGGTAACCAGGACGTTCATTACACGTTGGAATATGATTTAGCACAGTTCTTTGGCACCCAAGGTTCCGTTCTGTACGGGCAAGACTTTTGTGCCGCACCCTCTGTTCTGCCTGCTTTCACAAAGCGTGGTGATGTTATCGTGGCAGACGACCAGGTGTCATTACCAGTGCAAAATGCTCTGCAACTAAGCAGATCCACAGTCTACTACTTCAACCACAACGATATGAATTCGCTAGAATGTTTATTAAACGAGTTGACCGAACAGGAGAAACTTGAGAAACTGCCCGCCATTCCAAGAAAATTTATCGTCACTGAGGGTATTTTCCACAACTCGGGCGATTTAGCTCCGTTGCCTGAGTTGACTAAGCTGAAGAACAAGTACAAGTTCAGACTATTTGTTGACGAAACCTTCTCCATTGGTGTTCTTGGCGCTACGGGCCGTGGGTTGTCAGAGCACTTCAACATGGATCGCGCAACTGCCATTGACATTACCGTTGGGTCCATGGCCACCGCGTTGGGGTCCACCGGTGGTTTTGTCCTGGGTGACAGTGTTATGTGTTTGCACCAGCGTATTGGTTCCAATGCATATTGTTTTTCTGCCTGTTTGCCGGCTTACACCGTCACATCCGTCTCCAAAGTCTTGAAATTGATGGACTCCAACAACGACGCCGTCCAGACGCTGCAAAAACTATCCAAATCTTTGCATGATTCCTTTGCATCTGACGACTCCTTGCGTTCATACGTAATCGTCACGTCCTCTCCAGTGTCTGCTGTCCTACATCTGCAACTGACTCCCGCATATAGGTCTCGCAAGTTCGGATACACCTGCGAACAGCTATTCGAAACCATGTCAGCTTTGCAAAAGAAGTCCCAGACAAACAAATTCATTGAGCCATACGAAGAGGAGGAAAAATTTCTGCAGTCCATAGTAGATCATGCTCTTATTAACTACAACGTTCTCATCACAAGAAACACTATTGTTTTAAAACAGGAGACGCTACCAATTGTCCCTAGCTTGAAAATCTGCTGTAACGCCGCCATGTCCCCAGAGGAACTCAAAAATGCTTGCGAAAGTGTCAAGCAGTCCATCCTTGCCTGTTGCCAAGAATCTAATAAATAA","protein_sequence":"MAHIPEVLPKSIPIPAFIVTTSSYLWYYFNLVLTQIPGGQFIVSYIKKSHHDDPYRTTVEIGLILYGIIYYLSKPQQKKSLQAQKPNLSPQEIDALIEDWEPEPLVDPSATDEQSWRVAKTPVTMEMPIQNHITITRNNLQEKYTNVFNLASNNFLQLSATEPVKEVVKTTIKNYGVGACGPAGFYGNQDVHYTLEYDLAQFFGTQGSVLYGQDFCAAPSVLPAFTKRGDVIVADDQVSLPVQNALQLSRSTVYYFNHNDMNSLECLLNELTEQEKLEKLPAIPRKFIVTEGIFHNSGDLAPLPELTKLKNKYKFRLFVDETFSIGVLGATGRGLSEHFNMDRATAIDITVGSMATALGSTGGFVLGDSVMCLHQRIGSNAYCFSACLPAYTVTSVSKVLKLMDSNNDAVQTLQKLSKSLHDSFASDDSLRSYVIVTSSPVSAVLHLQLTPAYRSRKFGYTCEQLFETMSALQKKSQTNKFIEPYEEEEKFLQSIVDHALINYNVLITRNTIVLKQETLPIVPSLKICCNAAMSPEELKNACESVKQSILACCQESNK"},{"created_at":"2011-05-26T17:45:31.000Z","updated_at":"2011-05-27T15:01:02.000Z","name":"General amino acid permease AGP1","uniprot_id":"P25376","uniprot_name":"AGP1_YEAST","enzyme":false,"transporter":true,"gene_name":"AGP1","num_residues":633,"molecular_weight":"69670.70313","theoretical_pi":"6.97","general_function":"Involved in transport","specific_function":"Broad substrate range permease which transports asparagine and glutamine with intermediate specificity. Also transports Ala, Cys, Gly, Ile, Leu, Met, Phe, Ser, Thr, Tyr and Val. Important for the utilization of amino acids as a nitrogen source","reactions":[],"signal_regions":"None","transmembrane_regions":"125-145;149-169;198-218;232-252;261-281;314-334;353-373;403-425;453-473;478-498;532-552;561-581","pdb_id":null,"cellular_location":"Cell membrane; Multi-pass membrane protein","genbank_gene_id":null,"genbank_protein_id":null,"gene_card_id":"AGP1","chromosome_location":"chromosome 3","locus":"YCL025C","synonyms":["Asparagine/glutamine permease"],"enzyme_classes":[],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" membrane"},{"category":"Component","description":" membrane part"},{"category":"Component","description":" intrinsic to membrane"},{"category":"Component","description":" integral to membrane"},{"category":"Function","description":" transporter activity"},{"category":"Function","description":" transmembrane transporter activity"},{"category":"Function","description":" active transmembrane transporter activity"},{"category":"Function","description":" amine transmembrane transporter activity"},{"category":"Function","description":" amino acid transmembrane transporter activity"},{"category":"Process","description":" transmembrane transport"},{"category":"Process","description":" establishment of localization"},{"category":"Process","description":" transport"},{"category":"Process","description":" amine transport"},{"category":"Process","description":" amino acid transport"}],"pfams":[{"name":"AA_permease","identifier":"PF00324"}],"pathways":[],"gene_sequence":"ATGTCGTCGTCGAAGTCTCTATACGAACTGAAAGACTTGAAAAATAGCTCCACAGAAATACATGCCACGGGGCAGGATAATGAAATTGAATATTTCGAAACAGGCTCCAATGACCGTCCATCCTCACAACCTCATTTAGGTTACGAACAGCATAACACTTCTGCCGTGCGTAGGTTTTTCGACTCCTTTAAAAGAGCGGATCAGGGTCCACAGGATGAAGTAGAAGCAACACAAATGAACGATCTTACGTCGGCTATCTCACCTTCTTCTAGACAGGCTCAAGAACTAGAAAAAAATGAAAGTTCGGACAACATAGGCGCTAATACAGGTCATAAGTCGGACTCGCTGAAGAAAACCATTCAGCCTAGACATGTTCTGATGATTGCGTTGGGTACGGGTATCGGTACTGGGTTATTGGTCGGTAACGGTACCGCGTTGGTTCATGCGGGTCCAGCTGGACTACTTATTGGTTACGCTATTATGGGTTCTATCTTGTACTGTATTATTCAAGCATGTGGTGAAATGGCGCTAGTGTATAGTAACTTGACTGGTGGCTACAATGCATACCCCAGTTTCCTTGTGGATGATGGTTTTGGGTTTGCAGTCGCTTGGGTTTATTGTTTGCAATGGCTGTGTGTGTGTCCTCTGGAATTGGTGACCGCATCCATGACTATCAAATATTGGACGACATCTGTGAACCCGGATGTGTTCGTCATTATTTTCTATGTTTTGGTGATTACTATTAATATTTTCGGTGCTCGTGGTTATGCAGAAGCTGAGTTCTTCTTCAACTGTTGCAAAATTTTGATGATGACTGGGTTCTTCATTCTTGGTATTATCATCGATGTTGGTGGCGCTGGTAATGATGGTTTTATTGGTGGTAAATACTGGCACGATCCGGGCGCTTTCAATGGTAAACATGCCATTGACAGATTTAAAGGTGTTGCTGCAACATTAGTGACTGCTGCTTTTGCCTTTGGTGGTTCAGAGTTTATTGCCATCACCACTGCAGAACAATCTAATCCAAGAAAGGCCATTCCAGGTGCGGCCAAACAAATGATCTACAGAATCTTATTCCTATTCTTGGCTACCATTATTCTACTGGGTTTCTTGGTGCCATACAATTCCGATCAATTATTGGGTTCTACCGGTGGTGGTACTAAAGCCTCGCCATATGTCATTGCTGTTGCATCCCACGGTGTCCGTGTCGTCCCACACTTCATTAACGCCGTTATTCTACTTTCCGTGCTGTCCATGGCTAACTCCTCCTTCTACTCCAGTGCTCGTTTATTTTTAACTCTATCCGAGCAAGGTTACGCTCCTAAGGTTTTCTCCTACATCGACAGAGCCGGTAGACCATTGATTGCCATGGGTGTTTCTGCATTGTTTGCCGTTATTGCCTTCTGTGCTGCATCTCCCAAGGAAGAACAAGTTTTCACTTGGTTATTGGCCATTTCTGGTTTGTCTCAGCTTTTCACATGGACTGCCATTTGTTTATCCCATCTTAGATTTAGAAGAGCCATGAAAGTCCAAGGGAGATCTCTTGGAGAATTGGGTTTCAAATCTCAAACTGGTGTTTGGGGATCTGCCTACGCTTGCATTATGATGATTTTAATTCTTATTGCCCAATTTTGGGTCGCTATCGCCCCCATTGGTGAAGGTAAGCTGGATGCACAAGCCTTTTTCGAAAACTACTTGGCTATGCCAATCTTGATTGCACTTTATGTCGGCTACAAGGTCTGGCACAAGGATTGGAAACTGTTCATCAGGGCAGACAAGATCGACCTAGATTCTCATAGACAAATCTTTGATGAAGAATTAATCAAGCAAGAAGACGAAGAATATAGGGAACGTTTGAGGAACGGACCTTATTGGAAAAGGGTCGTTGCCTTCTGGTGTTAA","protein_sequence":"MSSSKSLYELKDLKNSSTEIHATGQDNEIEYFETGSNDRPSSQPHLGYEQHNTSAVRRFFDSFKRADQGPQDEVEATQMNDLTSAISPSSRQAQELEKNESSDNIGANTGHKSDSLKKTIQPRHVLMIALGTGIGTGLLVGNGTALVHAGPAGLLIGYAIMGSILYCIIQACGEMALVYSNLTGGYNAYPSFLVDDGFGFAVAWVYCLQWLCVCPLELVTASMTIKYWTTSVNPDVFVIIFYVLVITINIFGARGYAEAEFFFNCCKILMMTGFFILGIIIDVGGAGNDGFIGGKYWHDPGAFNGKHAIDRFKGVAATLVTAAFAFGGSEFIAITTAEQSNPRKAIPGAAKQMIYRILFLFLATIILLGFLVPYNSDQLLGSTGGGTKASPYVIAVASHGVRVVPHFINAVILLSVLSMANSSFYSSARLFLTLSEQGYAPKVFSYIDRAGRPLIAMGVSALFAVIAFCAASPKEEQVFTWLLAISGLSQLFTWTAICLSHLRFRRAMKVQGRSLGELGFKSQTGVWGSAYACIMMILILIAQFWVAIAPIGEGKLDAQAFFENYLAMPILIALYVGYKVWHKDWKLFIRADKIDLDSHRQIFDEELIKQEDEEYRERLRNGPYWKRVVAFWC"},{"created_at":"2011-05-26T18:12:27.000Z","updated_at":"2011-05-27T15:01:03.000Z","name":"Aminomethyltransferase, mitochondrial","uniprot_id":"P48015","uniprot_name":"GCST_YEAST","enzyme":true,"transporter":false,"gene_name":"GCV1","num_residues":400,"molecular_weight":"44468.69922","theoretical_pi":"9.23","general_function":"Involved in aminomethyltransferase activity","specific_function":"The glycine cleavage system (glycine decarboxylase complex) catalyzes the degradation of glycine","reactions":[{"id":2516,"direction":"\u003e","locations":"Mitochondrion","altext":"[Protein]-S(8)-aminomethyldihydrolipoyllysine + tetrahydrofolate = [protein]-dihydrolipoyllysine + 5,10-methylenetetrahydrofolate + NH(3).","export":false,"pw_reaction_id":null,"source":null},{"id":3846,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006369","source":"Smpdb"},{"id":3847,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006688","source":"Smpdb"},{"id":3848,"direction":"\u003c\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006690","source":"Smpdb"}],"signal_regions":"None","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Mitochondrion","genbank_gene_id":"L41522","genbank_protein_id":"769682","gene_card_id":"GCV1","chromosome_location":"chromosome 4","locus":"YDR019C","synonyms":["Glycine cleavage system T protein","GCVT","Glycine decarboxylase complex subunit T"],"enzyme_classes":["2.1.2.10"],"go_classes":[{"category":"Component","description":" cell part"},{"category":"Component","description":" intracellular part"},{"category":"Component","description":" cytoplasm"},{"category":"Function","description":" aminomethyltransferase activity"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" transferase activity"},{"category":"Function","description":" transferase activity, transferring one-carbon groups"},{"category":"Function","description":" methyltransferase activity"},{"category":"Process","description":" glycine metabolic process"},{"category":"Process","description":" glycine catabolic process"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" cellular metabolic process"},{"category":"Process","description":" cellular amino acid and derivative metabolic process"},{"category":"Process","description":" cellular amino acid metabolic process"},{"category":"Process","description":" serine family amino acid metabolic process"}],"pfams":[{"name":"GCV_T","identifier":"PF01571"},{"name":"GCV_T_C","identifier":"PF08669"}],"pathways":[{"name":"Glycine, serine and threonine metabolism","kegg_map_id":"00260"},{"name":"One carbon pool by folate","kegg_map_id":"00670"},{"name":"Nitrogen metabolism","kegg_map_id":"00910"},{"name":"glycine metabolism","kegg_map_id":null},{"name":"serine metabolism","kegg_map_id":null}],"gene_sequence":"ATGTCTATAATCAAAAAAATTGTGTTTAAGAGATTCAACTCAACTTTGAAAAAAACTGCTCTTCATGACCTTCATGTGTCATTAGGCGGTACAATGGTACCATACGCAGGATATTCCATGCCCGTACTATACAAGGGACAGACTCATATTGAATCACATAATTGGACCAGGACAAACGCTGGTTTATTTGATGTTTCTCATATGTTACAAAGTAAGTTATCTGGTCCTCATTCTGTTAAGTTTCTGCAACGTGTAACGCCCACAGATTTCAATGCCTTGCCTGTTGGGTCAGGGACCTTAAGTGTTCTATTAAATCCACAGGGAGGCGTGGTAGACGATACCATCATCACTAAAGAAAACGATGAGAATGAGTTCTATATTGTGACCAATGCTGGCTGTGCGGAAAGAGACACCGAGTTCTTTCACGATGAGCTACAAAATGGTTCTACTTTAGATTGTCAATGGAAAATCATTGAAGGTAGATCACTATTGGCATTGCAGGGTCCTAAAGCAAAAGATGTGTTGGAACCACTTTTATCAAAAACAGCTCCTGGAAAGGATCTAAAAGAGTTATTTTTTGGACAAAGACATGAATTTGCGTTAAAGGACGGTTCTTTGGTTCAAATTGCTAGAGGCGGGTACACTGGTGAAGATGGATTTGAGATAAGCATTGCAAATGAGAAAGCGGTTGAGTTTGCGGAGCAACTCTTGGCCAATCCAGTAATGAAGCCTATCGGACTGGCTGCTAGAGACAGTTTAAGGTTGGAAGCTGGTATGTGTTTGTATGGTCATGAATTGGACGAAAGTATCACACCAGTAGAAGCTGCGTTAAACTGGGTGATTTCAAAGTCAAGAAGGGACCTAGTAGATCAAAAGTACTGGTTCAATGGCTATGCCAAGATAATGGACCAGCTAAACAATAAAACGTATAGCAAGGTACGAGTCGGATTCAAATACTTGAAAAAGGGGCCAGCTGCCAGAAATGGTGTCAAGATCTTCTTGCCCGATGCCGAAACAGAGGTCGGCCTTGTTACATCAGGTAGTGCATCTCCAACTTTAAACAACATCAATATTGGACAAGCTTATGTACAGAAAGGTTACCACAAGAAGGGAACGAAGTTGCTTGTTCAAGTAAGGAACAAGTTCTACCCGATTGAACTTGCTAAAATGCCTCTTGTGCCCACACATTACTACAAGCAGTAA","protein_sequence":"MSIIKKIVFKRFNSTLKKTALHDLHVSLGGTMVPYAGYSMPVLYKGQTHIESHNWTRTNAGLFDVSHMLQSKLSGPHSVKFLQRVTPTDFNALPVGSGTLSVLLNPQGGVVDDTIITKENDDNEFYIVTNAGCAERDTEFFHDELQNGSTLDCQWKIIEGRSLLALQGPKAKDVLEPLLSKTAPGKDLKELFFGQRHEFALKDGSLVQIARGGYTGEDGFEISIANEKAVEFAEQLLANPVMKPIGLAARDSLRLEAGMCLYGHELDESITPVEAALNWVISKSRRDLVDQKYWFNGYAKIMDQLNNKTYSKVRVGFKYLKKGPAARNGVKIFLPDAETEVGLVTSGSASPTLNNINIGQAYVQKGYHKKGTKLLVQVRNKFYPIELAKMPLVPTHYYKQ"},{"created_at":"2016-09-09T22:47:07.000Z","updated_at":"2016-09-09T22:47:08.000Z","name":"Cys-Gly metallodipeptidase DUG1","uniprot_id":"P43616","uniprot_name":"DUG1","enzyme":false,"transporter":false,"gene_name":"DUG1","num_residues":481,"molecular_weight":"52870.91","theoretical_pi":null,"general_function":"glutathione catabolic process","specific_function":"Catalytic component of the GSH degradosomal complex involved in the degradation of glutathione (GSH) and other peptides containing a gamma-glu-X bond. Functions also in a DUG2-DUG3-independent manner as a dipeptidase with high specificity for Cys-Gly and no activity toward tri- or tetrapeptides.","reactions":[{"id":3832,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006357","source":"Smpdb"}],"signal_regions":null,"transmembrane_regions":null,"pdb_id":"4G1P","cellular_location":null,"genbank_gene_id":null,"genbank_protein_id":null,"gene_card_id":null,"chromosome_location":null,"locus":null,"synonyms":["Deficient in utilization of glutathione protein 1","GSH degradosomal complex subunit DUG1"],"enzyme_classes":[],"go_classes":[{"category":"Function","description":"metal ion binding"},{"category":"Function","description":"cytoplasm"},{"category":"Function","description":"metallodipeptidase activity"},{"category":"Function","description":"omega peptidase activity"},{"category":"Function","description":"tripeptidase activity"},{"category":"Function","description":"glutathione catabolic process"}],"pfams":[],"pathways":[{"name":"Glutathione metabolism","kegg_map_id":"00480"}],"gene_sequence":"ATGTCTCACTCACTTACTTCCGTTTTCCAAAAGATTGATTCTTTAAAGCCTCAGTTCTTCAGCAGACTGACTAAGGCTATTCAAATCCCCGCTGTTTCTTCGGATGAATCACTAAGGTCCAAAGTCTTCGATAAGGCCAAGTTTATCTCCGAGCAATTATCACAATCGGGGTTCCATGACATTAAAATGGTGGATCTGGGCATTCAACCTCCACCAATTTCTACGCCAAATCTGTCTCTACCTCCTGTGATTCTGTCTAGGTTCGGCAGCGACCCTTCAAAAAAGACTGTGTTGGTTTACGGTCACTATGATGTGCAACCTGCTCAATTGGAAGATGGTTGGGATACTGAGCCATTCAAGCTTGTCATTGATGAGGCTAAAGGTATCATGAAAGGAAGGGGTGTCACCGATGACACTGGTCCCTTATTATCTTGGATTAACGTTGTGGACGCCTTCAAAGCCTCCGGACAAGAATTCCCCGTTAACTTAGTTACTTGTTTCGAAGGAATGGAGGAAAGTGGTTCTTTGAAATTGGATGAATTGATTAAAAAGGAAGCTAATGGTTACTTTAAAGGTGTAGATGCCGTTTGTATTTCCGATAATTACTGGCTAGGCACTAAGAAGCCTGTTTTGACTTATGGTCTAAGAGGTTGCAACTACTATCAAACCATCATTGAGGGTCCAAGTGCAGATTTACACTCTGGTATCTTTGGTGGTGTTGTTGCTGAACCAATGATCGATTTAATGCAAGTTCTCGGTTCCCTTGTGGATTCTAAGGGTAAGATCCTGATTGACGGTATTGACGAAATGGTTGCTCCTCTAACCGAAAAGGAGAAGGCTCTATACAAGGATATCGAATTTAGCGTCGAAGAATTGAACGCTGCAACTGGCTCTAAGACAAGTTTGTACGACAAGAAGGAAGACATCTTGATGCACAGATGGAGGTATCCTTCGTTGTCCATTCATGGTGTGGAAGGCGCCTTTTCCGCTCAAGGTGCAAAGACTGTCATTCCAGCTAAGGTCTTCGGTAAGTTTTCCATTAGAACCGTCCCCGACATGGATTCTGAGAAACTGACCTCTTTGGTCCAGAAGCATTGTGATGCCAAATTCAAGTCCTTGAACTCTCCAAACAAGTGCAGAACAGAATTGATCCATGATGGTGCTTATTGGGTTTCTGATCCATTCAACGCCCAATTTACTGCTGCTAAAAAGGCCACAAAACTGGTCTATGGTGTCGATCCTGATTTTACCAGGGAAGGTGGTTCCATTCCTATCACTTTGACTTTCCAAGATGCCTTGAACACTAGTGTCTTATTGCTGCCAATGGGTAGAGGCGATGATGGTGCTCATTCAATCAATGAAAAGTTAGATATTTCAAATTTTGTTGGTGGTATGAAGACGATGGCTGCTTACTTGCAATATTACTCTGAATCGCCAGAAAACTAA","protein_sequence":"MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHDIKMVDLGIQPPPISTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFKLVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDELIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGVVAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKTSLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTSLVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREGGSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPEN"}]}