Local view for "http://wifo5-04.informatik.uni-mannheim.de/drugbank/resource/drugs/DB03328"

PredicateValue (sorted: default)
rdfs:label
"dioxothiomolybdenum(VI) ion"
rdf:type
drugbank:description
" experimental This compound belongs to the transition metal oxides. These are inorganic compounds containing an oxygen atom of an oxidation state of -2, in which the heaviest atom bonded to the oxygen is a transition metal. Transition Metal Oxides Inorganic Compounds Mixed Metal/Non-metal Compounds Transition Metal Organides Transition Metal Oxides logP -0.3 ChemAxon IUPAC Name molybdenumoylthiol ChemAxon Traditional IUPAC Name molybdenumoylthiol ChemAxon Molecular Weight 161.01 ChemAxon Monoisotopic Weight 162.875132812 ChemAxon SMILES S[Mo](=O)=O ChemAxon Molecular Formula HMoO2S ChemAxon InChI InChI=1S/Mo.2O.H2S/h;;;1H2/q+1;;;/p-1 ChemAxon InChIKey InChIKey=BDSRWPHSAKXXRG-UHFFFAOYSA-M ChemAxon Polar Surface Area (PSA) 34.14 ChemAxon Refractivity 9.44 ChemAxon Polarizability 7.48 ChemAxon Rotatable Bond Count 0 ChemAxon H Bond Acceptor Count 2 ChemAxon H Bond Donor Count 1 ChemAxon pKa (strongest acidic) 8.65 ChemAxon Physiological Charge 0 ChemAxon Number of Rings 0 ChemAxon Bioavailability 1 ChemAxon Rule of Five true ChemAxon PubChem Compound 5162682 PubChem Substance 46508283 ChemSpider 21542383 PDB MOS BE0002204 Xanthine dehydrogenase/oxidase Human # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 # Berman HM, Westbrook J, Feng Z, Gilliland G, Bhat TN, Weissig H, Shindyalov IN, Bourne PE: The Protein Data Bank. Nucleic Acids Res. 2000 Jan 1;28(1):235-42. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/10592235 unknown Xanthine dehydrogenase/oxidase Nucleotide transport and metabolism This enzyme can be converted from the dehydrogenase form (D) to the oxidase form (O) irreversibly by proteolysis or reversibly through the oxidation of sulfhydryl groups XDH 2p23.1 Peroxisome None 7.7 146426.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:12805 GenAtlas XDH GeneCards XDH GenBank Gene Database D11456 GenBank Protein Database 10336525 UniProtKB P47989 UniProt Accession XDH_HUMAN EC 1.17.1.4 EC 1.17.3.2 Xanthine oxidase XD XO >Xanthine dehydrogenase/oxidase [Includes: Xanthine dehydrogenase MTADKLVFFVNGRKVVEKNADPETTLLAYLRRKLGLSGTKLGCGEGGCGACTVMLSKYDR LQNKIVHFSANACLAPICSLHHVAVTTVEGIGSTKTRLHPVQERIAKSHGSQCGFCTPGI VMSMYTLLRNQPEPTMEEIENAFQGNLCRCTGYRPILQGFRTFARDGGCCGGDGNNPNCC MNQKKDHSVSLSPSLFKPEEFTPLDPTQEPIFPPELLRLKDTPRKQLRFEGERVTWIQAS TLKELLDLKAQHPDAKLVVGNTEIGIEMKFKNMLFPMIVCPAWIPELNSVEHGPDGISFG AACPLSIVEKTLVDAVAKLPAQKTEVFRGVLEQLRWFAGKQVKSVASVGGNIITASPISD LNPVFMASGAKLTLVSRGTRRTVQMDHTFFPGYRKTLLSPEEILLSIEIPYSREGEYFSA FKQASRREDDIAKVTSGMRVLFKPGTTEVQELALCYGGMANRTISALKTTQRQLSKLWKE ELLQDVCAGLAEELHLPPDAPGGMVDFRCTLTLSFFFKFYLTVLQKLGQENLEDKCGKLD PTFASATLLFQKDPPADVQLFQEVPKGQSEEDMVGRPLPHLAADMQASGEAVYCDDIPRY ENELSLRLVTSTRAHAKIKSIDTSEAKKVPGFVCFISADDVPGSNITGICNDETVFAKDK VTCVGHIIGAVVADTPEHTQRAAQGVKITYEELPAIITIEDAIKNNSFYGPELKIEKGDL KKGFSEADNVVSGEIYIGGQEHFYLETHCTIAVPKGEAGEMELFVSTQNTMKTQSFVAKM LGVPANRIVVRVKRMGGGFGGKETRSTVVSTAVALAAYKTGRPVRCMLDRDEDMLITGGR HPFLARYKVGFMKTGTVVALEVDHFSNVGNTQDLSQSIMERALFHMDNCYKIPNIRGTGR LCKTNLPSNTAFRGFGGPQGMLIAECWMSEVAVTCGMPAEEVRRKNLYKEGDLTHFNQKL EGFTLPRCWEECLASSQYHARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGA LLHVYTDGSVLLTHGGTEMGQGLHTKMVQVASRALKIPTSKIYISETSTNTVPNTSPTAA SVSADLNGQAVYAACQTILKRLEPYKKKNPSGSWEDWVTAAYMDTVSLSATGFYRTPNLG YSFETNSGNPFHYFSYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAF VQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPIEFRVSLLRDCPNKKAIYASKAV GEPPLFLAASIFFAIKDAIRAARAQHTGNNVKELFRLDSPATPEKIRNACVDKFTTLCVT GVPENCKPWSVRV >4002 bp ATGACAGCAGACAAATTGGTTTTCTTTGTGAATGGCAGAAAGGTGGTGGAGAAAAATGCA GATCCAGAGACAACCCTTTTGGCCTACCTGAGAAGAAAGTTGGGGCTGAGTGGAACCAAG CTCGGCTGTGGAGAGGGGGGCTGCGGGGCTTGCACAGTGATGCTCTCCAAGTATGATCGT CTGCAGAACAAGATCGTCCACTTTTCTGCCAATGCCTGCCTGGCCCCCATCTGCTCCTTG CACCATGTTGCAGTGACAACTGTGGAAGGAATAGGAAGCACCAAGACGAGGCTGCATCCT GTGCAGGAGAGAATTGCCAAAAGCCACGGCTCCCAGTGCGGGTTCTGCACCCCTGGCATC GTCATGAGTATGTACACACTGCTCCGGAATCAGCCCGAGCCCACCATGGAGGAGATTGAG AATGCCTTCCAAGGAAATCTGTGCCGCTGCACAGGCTACAGACCCATCCTCCAGGGCTTC CGGACCTTTGCCAGGGATGGTGGATGCTGTGGAGGAGATGGGAATAATCCAAATTGCTGC ATGAACCAGAAGAAAGACCACTCAGTCAGCCTCTCGCCATCTTTATTCAAACCAGAGGAG TTCACGCCCCTGGATCCAACCCAGGAGCCCATTTTTCCCCCAGAGTTGCTGAGGCTGAAA GACACTCCTCGGAAGCAGCTGCGATTTGAAGGGGAGCGTGTGACGTGGATACAGGCCTCA ACCCTCAAGGAGCTGCTGGACCTCAAGGCTCAGCACCCTGACGCCAAGCTGGTCGTGGGG AACACGGAGATTGGCATTGAGATGAAGTTCAAGAATATGCTGTTTCCTATGATTGTCTGC CCAGCCTGGATCCCTGAGCTGAATTCGGTAGAACATGGACCCGACGGTATCTCCTTTGGA GCTGCTTGCCCCCTGAGCATTGTGGAAAAAACCCTGGTGGATGCTGTTGCTAAGCTTCCT GCCCAAAAGACAGAGGTGTTCAGAGGGGTCCTGGAGCAGCTGCGCTGGTTTGCTGGGAAG CAAGTCAAGTCTGTGGCGTCCGTTGGAGGGAACATCATCACTGCCAGCCCCATCTCCGAC CTCAACCCCGTGTTCATGGCCAGTGGGGCCAAGCTGACACTTGTGTCCAGAGGCACCAGG AGAACTGTCCAGATGGACCACACCTTCTTCCCTGGCTACAGAAAGACCCTGCTGAGCCCG GAGGAGATACTGCTCTCCATAGAGATCCCCTACAGCAGGGAGGGGGAGTATTTCTCAGCA TTCAAGCAGGCCTCCCGGAGAGAAGATGACATTGCCAAGGTAACCAGTGGCATGAGAGTT TTATTCAAGCCAGGAACCACAGAGGTACAGGAGCTGGCCCTTTGCTATGGTGGAATGGCC AACAGAACCATCTCAGCCCTCAAGACCACTCAGAGGCAGCTTTCCAAGCTCTGGAAGGAG GAGCTGCTGCAGGACGTGTGTGCAGGACTGGCAGAGGAGCTGCATCTGCCTCCCGATGCC CCTGGTGGCATGGTGGACTTCCGGTGCACCCTCACCCTCAGCTTCTTCTTCAAGTTCTAC CTGACAGTCCTTCAGAAGCTGGGCCAAGAGAACCTGGAAGACAAGTGTGGTAAACTGGAC CCCACTTTCGCCAGTGCAACTTTACTGTTTCAGAAAGACCCCCCAGCCGATGTCCAGCTC TTCCAAGAGGTGCCCAAGGGTCAGTCTGAGGAGGACATGGTGGGCCGGCCCCTGCCCCAC CTGGCAGCGGACATGCAGGCCTCTGGTGAGGCCGTGTACTGTGACGACATTCCTCGCTAC GAGAATGAGCTGTCTCTCCGGCTGGTCACCAGCACCCGGGCCCACGCCAAGATCAAGTCC ATAGATACATCAGAAGCTAAGAAGGTTCCAGGGTTTGTTTGTTTCATTTCCGCTGATGAT GTTCCTGGGAGTAACATAACTGGAATTTGTAATGATGAGACAGTCTTTGCGAAGGATAAG GTTACTTGTGTTGGGCATATCATTGGTGCTGTGGTTGCTGACACCCCGGAACACACACAG AGAGCTGCCCAAGGGGTGAAAATCACCTATGAAGAACTACCAGCCATTATCACAATTGAG GATGCTATAAAGAACAACTCCTTTTATGGACCTGAGCTGAAGATCGAGAAAGGGGACCTA AAGAAGGGGTTTTCCGAAGCAGATAATGTTGTGTCAGGGGAGATATACATCGGTGGCCAA GAGCACTTCTACCTGGAGACTCACTGCACCATTGCTGTTCCAAAAGGCGAGGCAGGGGAG ATGGAGCTCTTTGTGTCTACACAGAACACCATGAAGACCCAGAGCTTTGTTGCAAAAATG TTGGGGGTTCCAGCAAACCGGATTGTGGTTCGAGTGAAGAGAATGGGAGGAGGCTTTGGA GGCAAGGAGACCCGGAGCACTGTGGTGTCCACGGCAGTGGCCCTGGCTGCATATAAGACC GGCCGCCCTGTGCGATGCATGCTGGACCGTGATGAGGACATGCTGATAACTGGTGGCAGA CATCCCTTCCTGGCCAGATACAAGGTTGGCTTCATGAAGACTGGGACAGTTGTGGCTCTT GAGGTGGACCACTTCAGCAATGTGGGGAACACCCAGGATCTCTCTCAGAGTATTATGGAA CGAGCTTTATTCCACATGGACAACTGCTATAAAATCCCCAACATCCGGGGCACTGGGCGG CTGTGCAAAACCAACCTTCCCTCCAACACGGCCTTCCGGGGCTTTGGGGGGCCCCAGGGG ATGCTCATTGCCGAGTGCTGGATGAGTGAAGTTGCAGTGACCTGTGGGATGCCTGCAGAG GAGGTGCGGAGAAAAAACCTGTACAAAGAAGGGGACCTGACACACTTCAACCAGAAGCTT GAGGGTTTCACCTTGCCCAGATGCTGGGAAGAATGCCTAGCAAGCTCTCAGTATCATGCT CGGAAGAGTGAGGTTGACAAGTTCAACAAGGAGAATTGTTGGAAAAAGAGAGGATTGTGC ATAATTCCCACCAAGTTTGGAATAAGCTTCACAGTTCCTTTTCTGAATCAGGCAGGAGCC CTACTTCATGTGTACACAGATGGCTCTGTGCTGCTGACCCACGGGGGGACTGAGATGGGC CAAGGCCTTCATACCAAAATGGTCCAGGTGGCCAGTAGAGCTCTGAAAATCCCCACCTCT AAGATTTATATCAGCGAGACAAGCACTAACACTGTGCCCAACACCTCTCCCACGGCTGCC TCTGTCAGCGCTGACCTCAATGGACAGGCCGTCTATGCGGCTTGTCAGACCATCTTGAAA AGGCTGGAACCCTACAAGAAGAAGAATCCCAGTGGCTCCTGGGAAGACTGGGTCACAGCT GCCTACATGGACACAGTGAGCTTGTCTGCCACTGGGTTTTATAGAACACCCAATCTGGGC TACAGCTTTGAGACTAACTCAGGGAACCCCTTCCACTACTTCAGCTATGGGGTGGCTTGC TCTGAAGTAGAAATCGACTGCCTAACAGGAGATCATAAGAACCTCCGCACAGATATTGTC ATGGATGTTGGCTCCAGTCTAAACCCTGCCATTGATATTGGACAGGTGGAAGGGGCATTT GTCCAGGGCCTTGGCCTCTTCACCCTAGAGGAGCTACACTATTCCCCCGAGGGGAGCCTG CACACCCGTGGCCCTAGCACCTACAAGATCCCGGCATTTGGCAGCATCCCCATTGAGTTC AGGGTGTCCCTGCTCCGCGACTGCCCCAACAAGAAGGCCATCTATGCATCGAAGGCTGTT GGAGAGCCGCCCCTCTTCCTGGCTGCTTCTATCTTCTTTGCCATCAAAGATGCCATCCGT GCAGCTCGAGCTCAGCACACAGGTAATAACGTGAAGGAACTCTTCCGGCTAGACAGCCCT GCCACCCCGGAGAAGATCCGCAATGCCTGCGTGGACAAGTTCACCACCCTGTGTGTCACT GGTGTCCCAGAAAACTGCAAACCCTGGTCTGTGAGGGTCTAA PF00111 Fer2 PF01315 Ald_Xan_dh_C PF02738 Ald_Xan_dh_C2 PF01799 Fer2_2 PF03450 CO_deh_flav_C PF00941 FAD_binding_5 function oxidoreductase activity function ion binding function cation binding function transition metal ion binding function iron ion binding function transporter activity function binding function electron transporter activity function catalytic activity function metal ion binding process physiological process process generation of precursor metabolites and energy process electron transport process metabolism process cellular metabolism "
owl:sameAs

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