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PredicateValue (sorted: none)
rdfs:label
"'5'-O-(N-(L-Alanyl)-Sulfamoyl)Adenosine"
rdf:type
owl:sameAs
ns1:description
" experimental This compound belongs to the purine nucleosides and analogues. These are compounds comprising a purine base attached to a sugar. Purine Nucleosides and Analogues Organic Compounds Organooxygen Compounds Carbohydrates and Carbohydrate Conjugates Glycosyl Compounds Glycoamino Acids and Derivatives Alpha Amino Acid Amides Pentoses Purines and Purine Derivatives Aminopyrimidines and Derivatives N-substituted Imidazoles Primary Aromatic Amines Oxolanes Sulfuric Acid Amide Esters Tetrahydrofurans Organic Sulfites 1,2-Diols Secondary Alcohols Carboxylic Acid Amides Enolates Polyamines Ethers Monoalkylamines alpha-amino acid amide alpha-amino acid or derivative pentose monosaccharide purine imidazopyrimidine aminopyrimidine pyrimidine primary aromatic amine monosaccharide sulfuric acid amide ester n-substituted imidazole sulfuric acid derivative tetrahydrofuran imidazole azole organic sulfite oxolane carboxamide group 1,2-diol secondary alcohol carboxylic acid derivative ether enolate polyamine amine alcohol primary amine organonitrogen compound primary aliphatic amine logP -1.4 ALOGPS logS -2 ALOGPS Water Solubility 4.58e+00 g/l ALOGPS logP -3.9 ChemAxon IUPAC Name (2S)-2-amino-1-[({[(2S,3R,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}sulfonyl)amino]propan-1-one ChemAxon Traditional IUPAC Name (2S)-2-amino-1-({[(2S,3R,4R,5R)-5-(6-aminopurin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxysulfonyl}amino)propan-1-one ChemAxon Molecular Weight 417.398 ChemAxon Monoisotopic Weight 417.106666687 ChemAxon SMILES C[C@H](N)C(=O)NS(=O)(=O)OC[C@@H]1O[C@H]([C@H](O)[C@H]1O)N1C=NC2=C1N=CN=C2N ChemAxon Molecular Formula C13H19N7O7S ChemAxon InChI InChI=1S/C13H19N7O7S/c1-5(14)12(23)19-28(24,25)26-2-6-8(21)9(22)13(27-6)20-4-18-7-10(15)16-3-17-11(7)20/h3-6,8-9,13,21-22H,2,14H2,1H3,(H,19,23)(H2,15,16,17)/t5-,6-,8-,9+,13+/m0/s1 ChemAxon InChIKey InChIKey=CWWYMWDIYBJVLP-KOMLLWLHSA-N ChemAxon Polar Surface Area (PSA) 217.8 ChemAxon Refractivity 92.14 ChemAxon Polarizability 38.21 ChemAxon Rotatable Bond Count 5 ChemAxon H Bond Acceptor Count 12 ChemAxon H Bond Donor Count 5 ChemAxon pKa (strongest acidic) 2.75 ChemAxon pKa (strongest basic) 6.76 ChemAxon Physiological Charge -1 ChemAxon Number of Rings 3 ChemAxon Bioavailability 0 ChemAxon PubChem Compound 46936655 PubChem Substance 46509106 PDB A5A BE0000188 Bifunctional glutamate/proline--tRNA ligase 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 Bifunctional glutamate/proline--tRNA ligase Translation, ribosomal structure and biogenesis EPRS 1q41-q42 None 7.75 163028.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:3418 GenAtlas EPRS GeneCards EPRS GenBank Gene Database X54326 GenBank Protein Database 31958 UniProtKB P07814 UniProt Accession SYEP_HUMAN EC 6.1.1.15 EC 6.1.1.17 Glutamate--tRNA ligase Prolyl-tRNA synthetase >Bifunctional aminoacyl-tRNA synthetase [Includes: Glutamyl-tRNA synthetase MEHTEIDHWLEFSATKLSSCDSFTSTINELNHCLSLRTYLVGNSLSLADLCVWATLKGNA AWQEQLKQKKAPVHVKRWFGFLEAQQAFQSVGTKWDVSTTKARVAPEKKQDVGKFVELPG AEMGKVTVRFPPEASGYLHIGHAKAALLNQHYQVNFKGKLIMRFDDTNPEKEKEDFEKVI LEDVAMLHIKPDQFTYTSDHFETIMKYAEKLIQEGKAYVDDTPAEQMKAEREQRIESKHR KNPIEKNLQMWEEMKKGSQFGHSCCLRAKIDMSSNNGCMRDPTLYRCKIQPHPRTGNKYN VYPTYDFACPIVDSIEGVTHALRTTEYHDRDEQFYWIIEALGIRKPYIWEYSRLNLNNTV LSKRKLTWFVNEGLVDGWDDPRFPTVRGVLRRGMTVEGLKQFIAAQGSSRSVVNMEWDKI WAFNKKVIDPVAPRYVALLKKEVIPVNVPEAQEEMKEVAKHPKNPEVGLKPVWYSPKVFI EGADAETFSEGEMVTFINWGNLNITKIHKNADGKIISLDAKFNLENKDYKKTTKVTWLAE TTHALPIPVICVTYEHLITKPVLGKDEDFKQYVNKNSKHEELMLGDPCLKDLKKGDIIQL QRRGFFICDQPYEPVSPYSCKEAPCVLIYIPDGHTKEMPTSGSKEKTKVEATKNETSAPF KERPTPSLNNNCTTSEDSLVLYNRVAVQGDVVRELKAKKAPKEDVDAAVKQLLSLKAEYK EKTGQEYKPGNPPAEIGQNISSNSSASILESKSLYDEVAAQGEVVRKLKAEKSPKAKINE AVECLLSLKAQYKEKTGKEYIPGQPPLSQSSDSSPTRNSEPAGLETPEAKVLFDKVASQG EVVRKLKTEKAPKDQVDIAVQELLQLKAQYKSLIGVEYKPVSATGAEDKDKKKKEKENKS EKQNKPQKQNDGQRKDPSKNQGGGLSSSGAGEGQGPKKQTRLGLEAKKEENLADWYSQVI TKSEMIEYHDISGCYILRPWAYAIWEAIKDFFDAEIKKLGVENCYFPMFVSQSALEKEKT HVADFAPEVAWVTRSGKTELAEPIAIRPTSETVMYPAYAKWVQSHRDLPIKLNQWCNVVR WEFKHPQPFLRTREFLWQEGHSAFATMEEAAEEVLQILDLYAQVYEELLAIPVVKGRKTE KEKFAGGDYTTTIEAFISASGRAIQGGTSHHLGQNFSKMFEIVFEDPKIPGEKQFAYQNS WGLTTRTIGVMTMVHGDNMGLVLPPRVACVQVVIIPCGITNALSEEDKEALIAKCNDYRR RLLSVNIRVRADLRDNYSPGWKFNHWELKGVPIRLEVGPRDMKSCQFVAVRRDTGEKLTV AENEAETKLQAILEDIQVTLFTRASEDLKTHMVVANTMEDFQKILDSGKIVQIPFCGEID CEDWIKKTTARDQDLEPGAPSMGAKSLCIPFKPLCELQPGAKCVCGKNPAKYYTLFGRSY >4323 bp ATGGAACATACTGAGATTGATCACTGGTTGGAGTTCAGTGCTACAAAATTATCTTCATGT GATTCCTTTACTTCTACAATTAATGAACTCAATCATTGCCTGTCTCTGAGAACATACTTA GTTGGAAACTCCTTGAGTTTAGCAGATTTATGTGTTTGGGCCACCCTAAAAGGAAATGCT GCCTGGCAAGAACAGTTGAAACAGAAGAAAGCTCCAGTTCATGTAAAACGTTGGTTTGGC TTTCTTGAAGCCCAGCAGGCCTTCCAGTCAGTAGGTACCAAGTGGGATGTTTCAACAACC AAAGCTCGAGTGGCACCTGAGAAAAAGCAAGATGTTGGGAAATTTGTTGAGCTTCCAGGT GCGGAGATGGGAAAGGTTACCGTCAGATTTCCTCCAGAGGCCAGTGGTTACTTACACATT GGGCATGCAAAAGCTGCTCTTCTGAACCAGCACTACCAGGTTAACTTTAAAGGGAAACTG ATCATGAGATTTGATGACACAAATCCTGAAAAAGAAAAGGAAGATTTTGAGAAGGTTATC TTGGAAGATGTTGCAATGTTGCATATCAAACCAGATCAATTTACTTATACTTCGGATCAT TTTGAAACTATAATGAAGTATGCAGAGAAGCTAATTCAAGAAGGGAAGGCTTATGTGGAT GATACTCCTGCTGAACAGATGAAAGCAGAACGTGAGCAGAGGATAGAATCTAAACATAGA AAAAACCCTATTGAGAAGAATCTACAAATGTGGGAAGAAATGAAAAAAGGGAGCCAGTTT GGTCACTCCTGTTGTTTGCGAGCAAAAATTGACATGAGTAGTAACAATGGATGCATGAGA GATCCAACCCTTTATCGCTGCAAAATTCAACCACATCCAAGAACTGGAAATAAATACAAT GTTTATCCAACATATGATTTTGCCTGCCCCATAGTTGACAGCATCGAAGGTGTTACACAT GCCCTGAGAACAACAGAATACCATGACAGAGATGAGCAGTTTTACTGGATTATTGAAGCT TTAGGCATAAGAAAACCATATATTTGGGAATATAGTCGGCTAAATCTCAACAACACAGTG CTATCCAAAAGAAAACTCACATGGTTTGTCAATGAAGGACTAGTAGATGGATGGGATGAC CCAAGATTTCCTACGGTTCGTGGTGTACTGAGAAGAGGGATGACAGTTGAAGGACTGAAA CAGTTTATTGCTGCTCAGGGCTCCTCACGTTCAGTCGTGAACATGGAGTGGGACAAAATC TGGGCGTTTAACAAAAAGGTTATTGACCCAGTGGCTCCACGATATGTTGCATTACTGAAG AAAGAAGTGATCCCAGTGAATGTACCTGAAGCTCAGGAGGAGATGAAAGAAGTAGCCAAA CACCCAAAGAATCCTGAGGTTGGCTTGAAGCCTGTGTGGTATAGTCCCAAAGTTTTCATT GAAGGTGCTGATGCAGAGACTTTTTCGGAGGGTGAGATGGTTACATTTATAAATTGGGGC AACCTCAACATTACAAAAATACACAAAAATGCAGATGGAAAAATCATATCTCTTGATGCA AAGTTTAATTTGGAAAACAAAGACTACAAGAAAACCACTAAGGTCACTTGGCTTGCAGAG ACTACACATGCTCTTCCTATTCCAGTAATCTGTGTCACTTATGAGCACTTGATCACAAAG CCAGTGCTAGGAAAAGACGAGGACTTTAAGCAGTATGTCAACAAGAACAGTAAGCATGAA GAGCTAATGCTAGGGGATCCCTGCCTTAAGGATTTGAAAAAAGGAGATATTATACAACTC CAGAGAAGAGGATTCTTCATATGTGATCAACCTTATGAACCTGTTAGCCCATATAGTTGC AAGGAAGCCCCGTGTGTTTTGATATACATTCCTGATGGGCACACAAAGGAAATGCCAACA TCAGGGTCAAAGGAAAAGACCAAAGTAGAAGCCACAAAAAATGAGACCTCTGCTCCTTTT AAGGAAAGACCAACACCTTCTCTGAATAATAATTGTACTACATCTGAGGATTCCTTGGTC CTTTACAATAGAGTGGCTGTTCAAGGAGATGTGGTTCGTGAATTAAAAGCCAAGAAAGCA CCAAAGGAAGATGTAGATGCAGCTGTAAAACAGCTTTTGTCTTTGAAAGCTGAATATAAG GAGAAAACTGGCCAGGAATATAAACCTGGAAACCCTCCTGCTGAAATAGGACAGAATATT TCTTCTAATTCCTCAGCAAGTATTCTGGAAAGTAAATCTCTGTATGATGAAGTTGCTGCA CAAGGGGAGGTGGTTCGTAAGCTAAAAGCTGAAAAATCCCCTAAGGCTAAAATAAATGAA GCTGTAGAATGCTTACTGTCCCTGAAGGCTCAGTATAAAGAAAAAACTGGGAAGGAGTAC ATACCTGGTCAGCCCCCATTATCTCAAAGTTCGGATTCAAGCCCAACCAGAAATTCTGAA CCTGCTGGTTTAGAAACACCAGAAGCGAAAGTACTTTTTGACAAAGTAGCTTCTCAAGGG GAAGTAGTTCGGAAACTTAAAACTGAAAAAGCCCCTAAGGATCAAGTAGATATAGCTGTT CAAGAACTCCTTCAGCTAAAGGCACAGTACAAGTCTTTGATAGGAGTAGAGTATAAGCCT GTGTCGGCCACTGGAGCTGAGGACAAAGATAAGAAGAAGAAAGAAAAAGAAAATAAATCT GAAAAGCAGAATAAGCCTCAGAAACAAAATGATGGCCAAAGGAAAGACCCTTCTAAAAAC CAAGGAGGTGGGCTCTCATCAAGTGGAGCAGGAGAAGGGCAGGGGCCTAAGAAACAGACC AGGTTGGGTCTTGAGGCAAAAAAAGAAGAAAATCTTGCTGATTGGTATTCTCAGGTCATC ACAAAGTCAGAAATGATTGAATACCATGACATAAGTGGCTGTTATATTCTTCGTCCCTGG GCCTATGCCATTTGGGAAGCCATCAAGGACTTTTTTGATGCTGAGATCAAGAAACTTGGT GTTGAAAACTGCTACTTCCCCATGTTTGTGTCTCAAAGTGCATTAGAGAAAGAGAAGACT CATGTTGCTGACTTTGCCCCAGAGGTTGCTTGGGTTACAAGATCTGGCAAAACCGAGCTG GCAGAACCAATTGCCATTCGTCCTACTAGTGAAACAGTAATGTATCCTGCATATGCAAAA TGGGTACAATCACACAGAGACCTGCCCATCAAGCTCAATCAGTGGTGCAATGTGGTGCGT TGGGAATTCAAGCATCCTCAGCCTTTCCTACGTACTCGTGAATTTCTTTGGCAGGAAGGG CACAGTGCTTTTGCTACCATGGAAGAGGCAGCGGAAGAGGTCTTGCAGATACTTGACTTA TATGCTCAGGTATATGAAGAACTCCTGGCAATTCCTGTTGTTAAAGGAAGAAAGACGGAA AAGGAAAAATTTGCAGGAGGAGACTATACAACTACAATAGAAGCATTTATATCTGCTAGT GGAAGAGCTATCCAGGGAGGAACATCACATCATTTAGGGCAGAATTTTTCCAAAATGTTT GAAATCGTTTTTGAAGATCCAAAGATACCAGGAGAGAAGCAATTTGCCTATCAAAACTCC TGGGGCCTGACAACTCGAACTATTGGTGTTATGACCATGGTTCATGGGGACAACATGGGT TTAGTATTACCACCCCGTGTAGCATGTGTTCAGGTGGTGATTATTCCTTGTGGCATTACC AATGCACTTTCTGAAGAAGACAAAGAAGCGCTGATTGCAAAATGCAATGATTATCGAAGG CGATTACTCAGTGTTAACATCCGCGTTAGAGCTGATTTACGAGATAATTATTCTCCAGGT TGGAAATTCAATCACTGGGAGCTCAAGGGAGTTCCCATTAGACTTGAAGTTGGGCCACGT GATATGAAGAGCTGTCAGTTTGTAGCCGTCAGACGAGATACTGGAGAAAAGCTGACAGTT GCTGAAAATGAGGCAGAGACTAAACTTCAAGCTATTTTGGAAGACATCCAGGTCACCCTT TTCACAAGGGCTTCTGAAGACCTTAAGACTCATATGGTTGTGGCTAATACAATGGAAGAC TTTCAGAAGATACTAGATTCTGGAAAGATTGTTCAGATTCCATTCTGTGGGGAAATTGAC TGTGAGGACTGGATCAAAAAGACCACTGCCAGGGATCAAGATCTTGAACCTGGTGCTCCA TCCATGGGAGCTAAAAGCCTTTGCATCCCCTTCAAACCACTCTGTGAACTGCAGCCTGGA GCCAAATGTGTCTGTGGCAAGAACCCTGCCAAGTACTACACCTTATTTGGTCGCAGCTAC TGA PF00587 tRNA-synt_2b PF03129 HGTP_anticodon PF00749 tRNA-synt_1c PF03950 tRNA-synt_1c_C PF00458 WHEP-TRS component cell component intracellular component cytoplasm function nucleotide binding function ligase activity, forming phosphoric ester bonds function purine nucleotide binding function RNA ligase activity function adenyl nucleotide binding function tRNA ligase activity function binding function ATP binding function catalytic activity function proline-tRNA ligase activity function glutamate-tRNA ligase activity function ligase activity process RNA metabolism process tRNA metabolism process tRNA aminoacylation process physiological process process tRNA aminoacylation for protein translation process macromolecule biosynthesis process metabolism process protein biosynthesis process cellular metabolism process nucleobase, nucleoside, nucleotide and nucleic acid metabolism process prolyl-tRNA aminoacylation process macromolecule metabolism process glutamyl-tRNA aminoacylation "

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