{"ymdb_id":"YMDB16192","created_at":"2016-09-12T18:21:50.000Z","updated_at":"2016-10-17T22:34:42.000Z","name":"Dextrin","cas":null,"state":"Solid","melting_point":null,"description":null,"experimental_water_solubility":null,"experimental_logp_hydrophobicity":null,"location":null,"synthesis_reference":null,"chebi_id":null,"hmdb_id":null,"kegg_id":null,"pubchem_id":null,"cs_id":null,"foodb_id":null,"wikipedia_link":null,"biocyc_id":null,"iupac":"(3R,4S,5S,6R)-2-{[(2R,3S,4R,5R)-4,5-dihydroxy-2-(hydroxymethyl)-6-{[(2R,3S,4R,5R,6S)-4,5,6-trihydroxy-2-(hydroxymethyl)oxan-3-yl]oxy}oxan-3-yl]oxy}-6-(hydroxymethyl)oxane-3,4,5-triol","traditional_iupac":"microcrystalline cellulose","logp":"-6.474210509333335","pka":"11.961306122075309","alogps_solubility":"5.54e+02 g/l","alogps_logp":"-2.74","alogps_logs":"0.04","acceptor_count":"16","donor_count":"11","rotatable_bond_count":"7","polar_surface_area":"268.67999999999995","refractivity":"100.74999999999996","polarizability":"46.189253310729924","formal_charge":"0","physiological_charge":"0","pka_strongest_basic":"-3.6483775752014047","pka_strongest_acidic":"11.215222724145232","bioavailability":"0","number_of_rings":"3","rule_of_five":"0","ghose_filter":"0","veber_rule":"0","mddr_like_rule":"1","synonyms":[],"pathways":[{"name":"Starch and sucrose metabolism","kegg_map_id":"00500"}],"growth_conditions":[],"references":[],"proteins":[{"created_at":"2011-05-27T05:49:48.000Z","updated_at":"2011-05-27T15:01:24.000Z","name":"Glucosidase 2 subunit alpha","uniprot_id":"P38138","uniprot_name":"GLU2A_YEAST","enzyme":true,"transporter":false,"gene_name":"ROT2","num_residues":954,"molecular_weight":"110265.0","theoretical_pi":"6.1","general_function":"Involved in catalytic activity","specific_function":"Catalytic subunit of glucosidase 2, which cleaves sequentially the 2 innermost alpha-1,3-linked glucose residues from the Glc(2)Man(9)GlcNAc(2) oligosaccharide precursor of immature glycoproteins","reactions":[{"id":14347,"direction":"\u003c","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006862","source":"Smpdb"},{"id":14354,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006869","source":"Smpdb"},{"id":14355,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006871","source":"Smpdb"},{"id":14356,"direction":"\u003e","locations":null,"altext":null,"export":true,"pw_reaction_id":"PW_R006873","source":"Smpdb"}],"signal_regions":"1-22","transmembrane_regions":"None","pdb_id":null,"cellular_location":"Endoplasmic reticulum","genbank_gene_id":"Z36098","genbank_protein_id":"536626","gene_card_id":"ROT2","chromosome_location":"chromosome 2","locus":"YBR229C","synonyms":["Alpha-glucosidase II subunit alpha","Glucosidase II subunit alpha","Reversal of TOR2 lethality protein 2"],"enzyme_classes":["3.2.1.84"],"go_classes":[{"category":"Component","description":" Not Available"},{"category":"Function","description":" catalytic activity"},{"category":"Function","description":" hydrolase activity"},{"category":"Function","description":" hydrolase activity, acting on glycosyl bonds"},{"category":"Function","description":" hydrolase activity, hydrolyzing O-glycosyl compounds"},{"category":"Process","description":" metabolic process"},{"category":"Process","description":" primary metabolic process"},{"category":"Process","description":" carbohydrate metabolic process"}],"pfams":[{"name":"Glyco_hydro_31","identifier":"PF01055"}],"pathways":[{"name":"N-Glycan biosynthesis","kegg_map_id":"00510"},{"name":"Starch and sucrose metabolism","kegg_map_id":"00500"}],"gene_sequence":"ATGGTCCTTTTGAAATGGCTCGTATGCCAATTGGTCTTCTTTACCGCTTTTTCGCATGCGTTTACCGACTATCTATTAAAGAAGTGTGCGCAATCTGGGTTTTGCCATAGAAACAGGGTTTATGCAGAAAATATTGCCAAATCTCATCACTGCTATTACAAAGTGGACGCCGAGTCTATTGCACACGATCCTTTAGAGAATGTGCTTCATGCTACCATAATTAAAACTATACCAAGATTGGAGGGCGATGATATAGCCGTTCAGTTCCCATTCTCTCTCTCTTTTTTACAGGATCACTCAGTAAGGTTCACTATAAATGAGAAAGAGAGAATGCCAACCAACAGCAGCGGTTTGTTGATCTCTTCACAACGGTTCAATGAGACCTGGAAGTACGCATTCGACAAGAAATTTCAAGAGGAGGCGAACAGGACCAGTATTCCACAATTCCACTTCCTTAAGCAAAAACAAACTGTGAACTCATTCTGGTCGAAAATATCTTCATTTTTGTCACTTTCAAACTCCACTGCAGACACATTTCATCTTCGAAACGGTGATGTATCCGTAGAAATCTTTGCTGAACCTTTTCAATTGAAAGTTTACTGGCAAAATGCGCTGAAACTTATTGTAAACGAGCAAAATTTCCTGAACATTGAACATCATAGAACTAAGCAGGAAAACTTCGCACACGTGCTGCCAGAAGAAACAACTTTCAACATGTTTAAGGACAATTTCTTGTATTCAAAGCATGACTCTATGCCTTTGGGGCCTGAATCGGTTGCGCTAGATTTCTCTTTCATGGGTTCTACTAATGTCTACGGTATACCGGAACATGCGACGTCGCTAAGGCTGATGGACACTTCAGGTGGAAAGGAACCCTACAGGCTTTTCAACGTTGATGTCTTTGAGTACAACATCGGTACCAGCCAACCAATGTACGGTTCGATCCCATTCATGTTTTCATCTTCGTCCACATCTATCTTTTGGGTCAATGCAGCTGACACTTGGGTAGACATAAAGTATGACACCAGTAAAAATAAAACGATGACTCATTGGATCTCCGAAAATGGTGTCATAGATGTAGTCATGTCCCTGGGGCCAGATATTCCAACTATCATTGACAAATTTACCGATTTGACTGGTAGACCCTTTTTACCGCCCATTTCCTCTATAGGGTACCATCAATGTAGATGGAATTATAATGATGAGATGGACGTTCTCACAGTGGACTCTCAGATGGATGCTCATATGATTCCTTACGATTTTATTTGGTTGGACTTGGAGTATACGAACGACAAAAAATATTTTACTTGGAAGCAGCACTCCTTTCCCAATCCAAAAAGGCTGTTATCCAAATTAAAAAAGTTGGGTAGAAATCTTGTCGTACTAATCGATCCTCATTTAAAGAAAGATTATGAAATCAGTGACAGGGTAATTAATGAAAATGTAGCAGTCAAGGATCACAATGGAAATGACTATGTAGGTCATTGCTGGCCAGGTAATTCTATATGGATTGATACCATAAGCAAATATGGCCAAAAGATTTGGAAGTCCTTTTTCGAACGGTTTATGGATCTGCCGGCTGATTTAACTAATTTATTCATTTGGAATGATATGAACGAGCCTTCGATTTTCGATGGCCCAGAGACCACAGCTCCAAAAGATTTGATTCACGACAATTACATTGAGGAAAGATCCGTCCATAACATATATGGTCTATCAGTGCATGAAGCTACTTACGACGCAATAAAATCGATTTATTCACCATCCGATAAGCGTCCTTTCCTTCTAACAAGGGCTTTTTTTGCCGGCTCTCAACGTACTGCTGCCACATGGACTGGTGACAATGTGGCCAATTGGGATTACTTAAAGATTTCCATTCCTATGGTTCTGTCAAACAACATTGCTGGTATGCCATTTATAGGAGCCGACATAGCTGGCTTTGCTGAGGATCCTACACCTGAATTGATTGCACGTTGGTACCAAGCGGGCTTATGGTACCCATTTTTTAGAGCACACGCCCATATAGACACCAAGAGAAGAGAACCATACTTATTCAATGAACCTTTGAAGTCGATAGTACGTGATATTATCCAATTGAGATATTTCCTGCTACCTACCTTATACACCATGTTTCATAAATCAAGTGTCACTGGATTTCCGATAATGAATCCAATGTTTATTGAACACCCTGAATTTGCTGAATTGTATCATATCGATAACCAATTTTACTGGAGTAATTCAGGTCTATTAGTCAAACCTGTCACGGAGCCTGGTCAATCAGAAACGGAAATGGTTTTCCCACCCGGTATATTCTATGAATTCGCATCTTTACACTCTTTTATAAACAATGGTACTGATTTGATAGAAAAGAATATTTCTGCACCATTGGATAAAATTCCATTATTTATTGAAGGCGGTCACATTATCACTATGAAAGATAAGTATAGAAGATCTTCAATGTTAATGAAAAACGATCCATATGTAATAGTTATAGCCCCTGATACCGAGGGACGAGCCGTTGGAGATCTTTATGTTGATGATGGAGAAACTTTTGGCTACCAAAGAGGTGAGTACGTAGAAACTCAGTTCATTTTCGAAAACAATACCTTAAAAAATGTTCGAAGTCATATTCCCGAGAATTTGACAGGCATTCACCACAATACTTTGAGGAATACCAATATTGAAAAAATCATTATCGCAAAGAATAATTTACAACACAACATAACGTTGAAAGACAGTATTAAAGTCAAAAAAAATGGCGAAGAAAGTTCATTGCCGACTAGATCGTCATATGAGAATGATAATAAGATCACCATTCTTAACCTATCGCTTGACATAACTGAAGATTGGGAAGTTATTTTTTGA","protein_sequence":"MVLLKWLVCQLVFFTAFSHAFTDYLLKKCAQSGFCHRNRVYAENIAKSHHCYYKVDAESIAHDPLENVLHATIIKTIPRLEGDDIAVQFPFSLSFLQDHSVRFTINEKERMPTNSSGLLISSQRFNETWKYAFDKKFQEEANRTSIPQFHFLKQKQTVNSFWSKISSFLSLSNSTADTFHLRNGDVSVEIFAEPFQLKVYWQNALKLIVNEQNFLNIEHHRTKQENFAHVLPEETTFNMFKDNFLYSKHDSMPLGPESVALDFSFMGSTNVYGIPEHATSLRLMDTSGGKEPYRLFNVDVFEYNIGTSQPMYGSIPFMFSSSSTSIFWVNAADTWVDIKYDTSKNKTMTHWISENGVIDVVMSLGPDIPTIIDKFTDLTGRPFLPPISSIGYHQCRWNYNDEMDVLTVDSQMDAHMIPYDFIWLDLEYTNDKKYFTWKQHSFPNPKRLLSKLKKLGRNLVVLIDPHLKKDYEISDRVINENVAVKDHNGNDYVGHCWPGNSIWIDTISKYGQKIWKSFFERFMDLPADLTNLFIWNDMNEPSIFDGPETTAPKDLIHDNYIEERSVHNIYGLSVHEATYDAIKSIYSPSDKRPFLLTRAFFAGSQRTAATWTGDNVANWDYLKISIPMVLSNNIAGMPFIGADIAGFAEDPTPELIARWYQAGLWYPFFRAHAHIDTKRREPYLFNEPLKSIVRDIIQLRYFLLPTLYTMFHKSSVTGFPIMNPMFIEHPEFAELYHIDNQFYWSNSGLLVKPVTEPGQSETEMVFPPGIFYEFASLHSFINNGTDLIEKNISAPLDKIPLFIEGGHIITMKDKYRRSSMLMKNDPYVIVIAPDTEGRAVGDLYVDDGETFGYQRGEYVETQFIFENNTLKNVRSHIPENLTGIHHNTLRNTNIEKIIIAKNNLQHNITLKDSIKVKKNGEESSLPTRSSYENDNKITILNLSLDITEDWEVIF"}]}