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PredicateValue (sorted: default)
rdfs:label
"(2S,4S,5R)-1-(4-TERT-BUTYLBENZOYL)-2-ISOBUTYL-5-(1,3-THIAZOL-2-YL)PYRROLIDINE-2,4-DICARBOXYLIC ACID"
rdf:type
drugbank:drugs
drugbank:description
" experimental This compound belongs to the n-acyl-alpha amino acids. These are compounds containing an alpha amino acid which bears an acyl group at his terminal nitrogen atom. N-acyl-alpha Amino Acids Organic Compounds Organic Acids and Derivatives Carboxylic Acids and Derivatives Amino Acids, Peptides, and Analogues Aromatic Monoterpenes Benzamides Cumenes Benzoyl Derivatives Pyrrolidine Carboxylic Acids Dicarboxylic Acids and Derivatives Thiazoles Tertiary Carboxylic Acid Amides Polyols Tertiary Amines Carboxylic Acids Polyamines Enolates aromatic monoterpene monoterpene p-cymene benzamide cumene pyrrolidine carboxylic acid pyrrolidine carboxylic acid or derivative benzoyl dicarboxylic acid derivative benzene azole thiazole tertiary carboxylic acid amide pyrrolidine carboxamide group polyol tertiary amine carboxylic acid polyamine enolate amine organonitrogen compound logP 2.82 ALOGPS logS -5.1 ALOGPS Water Solubility 3.45e-03 g/l ALOGPS logP 4.48 ChemAxon IUPAC Name (2S,4S,5R)-1-[(4-tert-butylphenyl)carbonyl]-2-(2-methylpropyl)-5-(1,3-thiazol-2-yl)pyrrolidine-2,4-dicarboxylic acid ChemAxon Traditional IUPAC Name (2S,4S,5R)-1-[(4-tert-butylphenyl)carbonyl]-2-(2-methylpropyl)-5-(1,3-thiazol-2-yl)pyrrolidine-2,4-dicarboxylic acid ChemAxon Molecular Weight 458.57 ChemAxon Monoisotopic Weight 458.18754277 ChemAxon SMILES [H][C@@]1(C[C@](CC(C)C)(N(C(=O)C2=CC=C(C=C2)C(C)(C)C)[C@@]1([H])C1=NC=CS1)C(O)=O)C(O)=O ChemAxon Molecular Formula C24H30N2O5S ChemAxon InChI InChI=1S/C24H30N2O5S/c1-14(2)12-24(22(30)31)13-17(21(28)29)18(19-25-10-11-32-19)26(24)20(27)15-6-8-16(9-7-15)23(3,4)5/h6-11,14,17-18H,12-13H2,1-5H3,(H,28,29)(H,30,31)/t17-,18+,24-/m0/s1 ChemAxon InChIKey InChIKey=SWYJAQWTBADJTB-RHGYRFJNSA-N ChemAxon Polar Surface Area (PSA) 107.8 ChemAxon Refractivity 120.33 ChemAxon Polarizability 48.68 ChemAxon Rotatable Bond Count 7 ChemAxon H Bond Acceptor Count 6 ChemAxon H Bond Donor Count 2 ChemAxon pKa (strongest acidic) 3.61 ChemAxon pKa (strongest basic) 2.07 ChemAxon Physiological Charge -2 ChemAxon Number of Rings 3 ChemAxon Bioavailability 1 ChemAxon Rule of Five true ChemAxon Ghose Filter true ChemAxon MDDR-Like Rule true ChemAxon PubChem Compound 15991559 PubChem Substance 99443670 ChemSpider 13122494 PDB 698 BE0001478 Genome polyprotein HCV # 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 Genome polyprotein Involved in structural molecule activity NS5B is a RNA-dependent RNA polymerase that plays an essential role in the virus replication Core protein p21:Endoplasmic reticulum; endoplasmic reticulum membrane; single-pass membrane protein 169-189 359-379 726-746 758-778 783-803 814-834 882-902 929-949 1658-1678 1806-1826 1829-1849 1851-1871 1882-1902 2990-3010 8.14 327196.0 HCV GenBank Gene Database M58335 GenBank Protein Database 329771 UniProtKB P26663 UniProt Accession POLG_HCVBK Capsid protein C Core protein p19 EC 2.7.7.48 EC 3.4.21.98 EC 3.4.22.- EC 3.6.1.- EC 3.6.1.15 Envelope glycoprotein E1 Envelope glycoprotein E2 Genome polyprotein [Contains: Core protein p21 gp32 gp35 gp68 gp70 Hepacivirin Non-structural protein 4A Non-structural protein 4B Non-structural protein 5A NS1 NS3P NS4A NS4B NS5A NS5B p21 p23 p27 p56 p68] p7 p70 p8 Protease NS2-3 RNA-directed RNA polymerase Serine protease/NTPase/helicase NS3 >Genome polyprotein [Contains: Core protein p21 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRAPRKTSERSQPRG RRQPIPKARRPEGRTWAQPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPTDPRRRSRNLG KVIDTLTCGFADLMGYIPLVGAPLGGAARALAHGVRVLEDGVNYATGNLPGCSFSIFLLA LLSCLTTPASAYEVHNVSGIYHVTNDCSNASIVYEAADLIMHTPGCVPCVREGNSSRCWV ALTPTLAARNVTIPTTTIRRHVDLLVGAAAFCSAMYVGDLCGSVFLVSQLFTFSPRRHVT LQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVSQLLRIPQAVVDMVAGAHWGVLAGLA YYSMAGNWAKVLIVMLLFAGVDGDTHVTGGAQAKTTNRLVSMFASGPSQKIQLINTNGSW HINRTALNCNDSLQTGFLAALFYTHSFNSSGCPERMAQCRTIDKFDQGWGPITYAESSRS DQRPYCWHYPPPQCTIVPASEVCGPVYCFTPSPVVVGTTDRFGVPTYRWGENETDVLLLN NTRPPQGNWFGCTWMNSTGFTKTCGGPPCNIGGVGNNTLTCPTDCFRKHPEATYTKCGSG PWLTPRCMVDYPYRLWHYPCTVNFTIFKVRMYVGGVEHRLNAACNWTRGERCDLEDRDRP ELSPLLLSTTEWQVLPCSFTTLPALSTGLIHLHQNIVDVQYLYGIGSAVVSFAIKWEYVL LLFLLLADARVCACLWMMLLIAQAEAALENLVVLNSASVAGAHGILSFLVFFCAAWYIKG RLVPGATYALYGVWPLLLLLLALPPRAYAMDREMAASCGGAVFVGLVLLTLSPYYKVFLA RLIWWLQYFTTRAEADLHVWIPPLNARGGRDAIILLMCAVHPELIFDITKLLIAILGPLM VLQAGITRVPYFVRAQGLIHACMLVRKVAGGHYVQMAFMKLGALTGTYIYNHLTPLRDWP RAGLRDLAVAVEPVVFSDMETKIITWGADTAACGDIILGLPVSARRGKEILLGPADSLEG RGLRLLAPITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWT VYHGAGSKTLAAPKGPITQMYTNVDQDLVGWPKPPGARSLTPCTCGSSDLYLVTRHADVI PVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPFGHAVGIFRAAVCTRGVAKAVDFVPVES METTMRSPVFTDNSSPPAVPQSFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAA TLGFGAYMSKAHGIDPNIRTGVRTITTGAPVTYSTYGKFLADGGCSGGAYDIIICDECHS TDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSNTGEIPFYGKAI PIEAIRGGRHLIFCHSKKKCDELAAKLSGLGINAVAYYRGLDVSVIPTIGDVVVVATDAL MTGYTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRRGIYR FVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWES VFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHG PTPLLYRLGAVQNEVTLTHPITKYIMACMSADLEVVTSTWVLVGGVLAALAAYCLTTGSV VIVGRIILSGRPAIVPDRELLYQEFDEMEECASHLPYIEQGMQLAEQFKQKALGLLQTAT KQAEAAAPVVESKWRALETFWAKHMWNFISGIQYLAGLSTLPGNPAIASLMAFTASITSP LTTQSTLLFNILGGWVAAQLAPPSAASAFVGAGIAGAAVGSIGLGKVLVDILAGYGAGVA GALVAFKVMSGEMPSTEDLVNLLPAILSPGALVVGVVCAAILRRHVGPGEGAVQWMNRLI AFASRGNHVSPTHYVPESDAAARVTQILSSLTITQLLKRLHQWINEDCSTPCSGSWLRDV WDWICTVLTDFKTWLQSKLLPQLPGVPFFSCQRGYKGVWRGDGIMQTTCPCGAQITGHVK NGSMRIVGPKTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFH YVTGMTTDNVKCPCQVPAPEFFSEVDGVRLHRYAPACRPLLREEVTFQVGLNQYLVGSQL PCEPEPDVAVLTSMLTDPSHITAETAKRRLARGSPPSLASSSASQLSAPSLKATCTTHHV SPDADLIEANLLWRQEMGGNITRVESENKVVVLDSFDPLRAEEDEREVSVPAEILRKSKK FPAAMPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPPIKAPPIPPPRRKRTVVLTESSV SSALAELATKTFGSSESSAVDSGTATALPDQASDDGDKGSDVESYSSMPPLEGEPGDPDL SDGSWSTVSEEASEDVVCCSMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATT SRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKF GYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQPEKGGRKPARLIV FPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDT RCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRA SGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTE AMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETAR HTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQ IIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATC GKYLFNWAVKTKLKLTPIPAASRLDLSGWFVAGYSGGDIYHSLSRARPRWFMLCLLLLSV GVGIYLLPNR >9033 bp ATGAGCACGAATCCTAAACCTCAAAGAAAAACCAAACGTAACACCAACCGCCGCCCACAG GACGTCAAGTTCCCGGGCGGTGGTCAGATCGTTGGTGGAGTTTACCTGTTGCCGCGCAGG GGCCCCAGGTTGGGTGTGCGCGCGCCCAGGAAGACTTCCGAGCGGTCGCAACCTCGTGGA AGGCGACAACCTATCCCCAAGGCTCGCCGGCCCGAGGGCAGGACCTGGGCTCAGCCCGGG TACCCTTGGCCTCTCTATGGCAATGAGGGCTTAGGGTGGGCAGGATGGCTCCTGTCACCC CGCGGCTCCCGGCCTAGTTGGGGCCCCACGGACCCCCGGCGTAGGTCGCGTAATTTGGGT AAGGTCATCGATACCCTCACATGCGGCTTCGCCGATCTCATGGGGTACATTCCGCTCGTC GGCGCCCCCCTGGGGGGCGCTGCCAGGGCCCTGGCACATGGTGTCCGGGTTCTGGAGGAC GGCGTGAACTATGCAACAGGGAATCTGCCCGGTTGCTCTTTTTCTATCTTCCTCTTGGCT CTGCTGTCCTGCCTGACCACCCCAGCTTCCGCTTACGAAGTGCACAACGTGTCCGGGATA TATCATGTCACGAACGACTGCTCCAACGCAAGCATTGTGTATGAGGCAGCGGACTTGATC ATGCATACTCCTGGGTGCGTGCCCTGCGTTCGGGAAGGCAACTCCTCCCGCTGCTGGGTA GCGCTCACTCCCACGCTCGCAGCCAGGAACGTCACCATCCCCACCACGACGATACGACGC CACGTCGATCTGCTCGTTGGGGCGGCTGCTTTCTGTTCCGCTATGTACGTGGGGGACCTC TGCGGATCTGTTTTCCTCGTCTCTCAGCTGTTCACCTTCTCGCCTCGCCGGCATGTGACA TTACAGGACTGTAACTGCTCAATTTATCCCGGCCATGTGTCGGGTCACCGTATGGCTTGG GACATGATGATGAACTGGTCGCCCACAACAGCCCTAGTGGTGTCGCAGTTACTCCGGATC CCACAAGCCGTCGTGGACATGGTGGCGGGGGCCCACTGGGGAGTCCTGGCGGGCCTTGCC TACTATTCCATGGCGGGGAACTGGGCTAAGGTTCTGATTGTGATGCTACTTTTTGCTGGC GTTGACGGGGATACCCACGTGACAGGGGGGGCGCAAGCCAAAACCACCAACAGGCTCGTG TCCATGTTCGCAAGTGGGCCGTCTCAGAAAATCCAGCTTATAAACACCAATGGGAGTTGG CACATCAACAGGACTGCCCTGAACTGCAATGACTCTCTCCAGACTGGGTTTCTTGCCGCG CTGTTCTACACACATAGTTTCAACTCGTCCGGGTGCCCAGAGCGCATGGCCCAGTGCCGC ACCATTGACAAGTTCGACCAGGGATGGGGTCCCATTACTTATGCTGAGTCTAGCAGATCA GACCAGAGGCCATATTGCTGGCACTACCCACCTCCACAATGTACCATCGTACCTGCGTCG GAGGTGTGCGGCCCAGTGTACTGCTTCACCCCAAGCCCTGTCGTCGTGGGGACGACCGAT CGTTTCGGTGTCCCTACGTATAGATGGGGGGAGAACGAGACTGACGTGCTGCTGCTCAAC AACACGCGGCCGCCGCAAGGCAACTGGTTCGGCTGCACATGGATGAATAGCACCGGGTTC ACCAAGACATGTGGGGGGCCCCCGTGTAACATCGGGGGGGTCGGCAACAACACCCTGACC TGCCCCACGGACTGCTTCCGGAAGCACCCCGAGGCTACCTACACAAAATGTGGTTCGGGG CCTTGGCTGACACCTAGGTGCATGGTTGACTATCCATACAGGCTCTGGCATTACCCCTGC ACTGTTAACTTTACCATCTTCAAGGTTAGGATGTATGTGGGGGGGGTGGAGCACAGGCTC AATGCTGCATGCAATTGGACCCGAGGAGAGCGTTGTGACTTGGAGGACAGGGATAGGCCG GAGCTCAGCCCGCTGCTGCTGTCTACAACAGAGTGGCAGGTACTGCCCTGTTCCTTCACC ACCCTACCAGCTCTGTCCACTGGCTTGATTCACCTCCATCAGAACATCGTGGACGTGCAA TACCTATACGGTATAGGGTCAGCGGTTGTCTCCTTTGCAATCAAATGGGAGTATGTCCTG TTGCTTTTCCTTCTCCTAGCGGACGCACGTGTCTGTGCCTGCTTGTGGATGATGCTGCTG ATAGCCCAGGCCGAGGCCGCCTTGGAGAACCTGGTGGTCCTCAATTCGGCGTCTGTGGCC GGCGCACATGGCATCCTCTCCTTCCTTGTGTTCTTCTGTGCCGCCTGGTACATCAAAGGC AGGCTGGTCCCTGGGGCGACATATGCTCTTTATGGCGTGTGGCCGCTGCTCCTGCTCTTG CTGGCATTACCACCGCGAGCTTACGCCATGGACCGGGAGATGGCTGCATCGTGCGGAGGC GCGGTTTTTGTGGGTCTGGTACTCCTGACTTTGTCACCATACTACAAGGTGTTCCTCGCT AGGCTCATATGGTGGTTACAATATTTTACCACCAGAGCCGAGGCGGACTTACATGTGTGG ATCCCCCCCCTCAACGCTCGGGGAGGCCGCGATGCCATCATCCTCCTCATGTGCGCAGTC CATCCAGAGCTAATCTTTGACATCACCAAACTTCTAATTGCCATACTCGGTCCGCTCATG GTGCTCCAAGCTGGCATAACCAGAGTGCCGTACTTCGTGCGCGCTCAAGGGCTCATTCAT GCATGCATGTTAGTGCGGAAGGTCGCTGGGGGTCATTATGTCCAAATGGCCTTCATGAAG CTGGGCGCGCTGACAGGCACGTACATTTACAACCATCTTACCCCGCTACGGGATTGGCCA CGCGCGGGCCTACGAGACCTTGCGGTGGCAGTGGAGCCCGTCGTCTTCTCCGACATGGAG ACCAAGATCATCACCTGGGGAGCAGACACCGCGGCGTGTGGGGACATCATCTTGGGTCTG CCCGTCTCCGCCCGAAGGGGAAAGGAGATACTCCTGGGCCCGGCCGATAGTCTTGAAGGG CGGGGGTTGCGACTCCTCGCGCCCATCACGGCCTACTCCCAACAGACGCGGGGCCTACTT GGTTGCATCATCACTAGCCTTACAGGCCGGGACAAGAACCAGGTCGAGGGAGAGGTTCAG GTGGTTTCCACCGCAACACAATCCTTCCTGGCGACCTGCGTCAACGGCGTGTGTTGGACC GTTTACCATGGTGCTGGCTCAAAGACCTTAGCCGCGCCAAAGGGGCCAATCACCCAGATG TACACTAATGTGGACCAGGACCTCGTCGGCTGGCCCAAGCCCCCCGGGGCGCGTTCCTTG ACACCATGCACCTGTGGCAGCTCAGACCTTTACTTGGTCACGAGACATGCTGACGTCATT CCGGTGCGCCGGCGGGGCGACAGTAGGGGGAGCCTGCTCTCCCCCAGGCCTGTCTCCTAC TTGAAGGGCTCTTCGGGTGGTCCACTGCTCTGCCCCTTCGGGCACGCTGTGGGCATCTTC CGGGCTGCCGTATGCACCCGGGGGGTTGCGAAGGCGGTGGACTTTGTGCCCGTAGAGTCC ATGGAAACTACTATGCGGTCTCCGGTCTTCACGGACAACTCATCCCCCCCGGCCGTACCG CAGTCATTTCAAGTGGCCCACCTACACGCTCCCACTGGCAGCGGCAAGAGTACTAAAGTG CCGGCTGCATATGCAGCCCAAGGGTACAAGGTGCTCGTCCTCAATCCGTCCGTTGCCGCT ACCTTAGGGTTTGGGGCGTATATGTCTAAGGCACACGGTATTGACCCCAACATCAGAACT GGGGTAAGGACCATTACCACAGGCGCCCCCGTCACATACTCTACCTATGGCAAGTTTCTT GCCGATGGTGGTTGCTCTGGGGGCGCTTATGACATCATAATATGTGATGAGTGCCATTCA ACTGACTCGACTACAATCTTGGGCATCGGCACAGTCCTGGACCAAGCGGAGACGGCTGGA GCGCGGCTTGTCGTGCTCGCCACCGCTACGCCTCCGGGATCGGTCACCGTGCCACACCCA AACATCGAGGAGGTGGCCCTGTCTAATACTGGAGAGATCCCCTTCTATGGCAAAGCCATC CCCATTGAAGCCATCAGGGGGGGAAGGCATCTCATTTTCTGTCATTCCAAGAAGAAGTGC GACGAGCTCGCCGCAAAGCTGTCAGGCCTCGGAATCAACGCTGTGGCGTATTACCGGGGG CTCGATGTGTCCGTCATACCAACTATCGGAGACGTCGTTGTCGTGGCAACAGACGCTCTG ATGACGGGCTATACGGGCGACTTTGACTCAGTGATCGACTGTAACACATGTGTCACCCAG ACAGTCGACTTCAGCTTGGATCCCACCTTCACCATTGAGACGACGACCGTGCCTCAAGAC GCAGTGTCGCGCTCGCAGCGGCGGGGTAGGACTGGCAGGGGTAGGAGAGGCATCTACAGG TTTGTGACTCCGGGAGAACGGCCCTCGGGCATGTTCGATTCCTCGGTCCTGTGTGAGTGC TATGACGCGGGCTGTGCTTGGTACGAGCTCACCCCGGCCGAGACCTCGGTTAGGTTGCGG GCCTACCTGAACACACCAGGGTTGCCCGTTTGCCAGGACCACCTGGAGTTCTGGGAGAGT GTCTTCACAGGCCTCACCCATATAGATGCACACTTCTTGTCCCAGACCAAGCAGGCAGGA GACAACTTCCCCTACCTGGTAGCATACCAAGCCACGGTGTGCGCCAGGGCTCAGGCCCCA CCTCCATCATGGGATCAAATGTGGAAGTGTCTCATACGGCTGAAACCTACGCTGCACGGG CCAACACCCTTGCTGTACAGGCTGGGAGCCGTCCAGAATGAGGTCACCCTCACCCACCCC ATAACCAAATACATCATGGCATGCATGTCGGCTGACCTGGAGGTCGTCACTAGCACCTGG GTGCTGGTGGGCGGAGTCCTTGCAGCTCTGGCCGCGTATTGCCTGACAACAGGCAGTGTG GTCATTGTGGGTAGGATTATCTTGTCCGGGAGGCCGGCCATTGTTCCCGACAGGGAGCTT CTCTACCAGGAGTTCGATGAAATGGAAGAGTGCGCCTCGCACCTCCCTTACATCGAGCAG GGAATGCAGCTCGCCGAGCAATTCAAGCAGAAAGCGCTCGGGTTACTGCAAACAGCCACC AAACAAGCGGAGGCTGCTGCTCCCGTGGTGGAGTCCAAGTGGCGAGCCCTTGAGACATTC TGGGCGAAGCACATGTGGAATTTCATCAGCGGGATACAGTACTTAGCAGGCTTATCCACT CTGCCTGGGAACCCCGCAATAGCATCATTGATGGCATTCACAGCCTCTATCACCAGCCCG CTCACCACCCAAAGTACCCTCCTGTTTAACATCTTGGGGGGGTGGGTGGCTGCCCAACTC GCCCCCCCCAGCGCCGCTTCGGCTTTCGTGGGCGCCGGCATCGCCGGTGCGGCTGTTGGC AGCATAGGCCTTGGGAAGGTGCTTGTGGACATTCTGGCGGGTTATGGAGCAGGAGTGGCC GGCGCGCTCGTGGCCTTTAAGGTCATGAGCGGCGAGATGCCCTCCACCGAGGACCTGGTC AATCTACTTCCTGCCATCCTCTCTCCTGGCGCCCTGGTCGTCGGGGTCGTGTGTGCAGCA ATACTGCGTCGACACGTGGGTCCGGGAGAGGGGGCTGTGCAGTGGATGAACCGGCTGATA GCGTTCGCCTCGCGGGGTAATCATGTTTCCCCCACGCACTATGTGCCTGAGAGCGACGCC GCAGCGCGTGTTACTCAGATCCTCTCCAGCCTTACCATCACTCAGCTGCTGAAAAGGCTC CACCAGTGGATTAATGAAGACTGCTCCACACCGTGTTCCGGCTCGTGGCTAAGGGATGTT TGGGACTGGATATGCACGGTGTTGACTGACTTCAAGACCTGGCTCCAGTCCAAGCTCCTG CCGCAGCTACCTGGAGTCCCTTTTTTCTCGTGCCAACGCGGGTACAAGGGAGTCTGGCGG GGAGACGGCATCATGCAAACCACCTGCCCATGTGGAGCACAGATCACCGGACATGTCAAA AACGGTTCCATGAGGATCGTCGGGCCTAAGACCTGCAGCAACACGTGGCATGGAACATTC CCCATCAACGCATACACCACGGGCCCCTGCACACCCTCTCCAGCGCCAAACTATTCTAGG GCGCTGTGGCGGGTGGCCGCTGAGGAGTACGTGGAGGTCACGCGGGTGGGGGATTTCCAC TACGTGACGGGCATGACCACTGACAACGTAAAGTGCCCATGCCAGGTTCCGGCTCCTGAA TTCTTCTCGGAGGTGGACGGAGTGCGGTTGCACAGGTACGCTCCGGCGTGCAGGCCTCTC CTACGGGAGGAGGTTACATTCCAGGTCGGGCTCAACCAATACCTGGTTGGGTCACAGCTA CCATGCGAGCCCGAACCGGATGTAGCAGTGCTCACTTCCATGCTCACCGACCCCTCCCAC ATCACAGCAGAAACGGCTAAGCGTAGGTTGGCCAGGGGGTCTCCCCCCTCCTTGGCCAGC TCTTCAGCTAGCCAGTTGTCTGCGCCTTCCTTGAAGGCGACATGCACTACCCACCATGTC TCTCCGGACGCTGACCTCATCGAGGCCAACCTCCTGTGGCGGCAGGAGATGGGCGGGAAC ATCACCCGCGTGGAGTCGGAGAACAAGGTGGTAGTCCTGGACTCTTTCGACCCGCTTCGA GCGGAGGAGGATGAGAGGGAAGTATCCGTTCCGGCGGAGATCCTGCGGAAATCCAAGAAG TTCCCCGCAGCGATGCCCATCTGGGCGCGCCCGGATTACAACCCTCCACTGTTAGAGTCC TGGAAGGACCCGGACTACGTCCCTCCGGTGGTGCACGGGTGCCCGTTGCCACCTATCAAG GCCCCTCCAATACCACCTCCACGGAGAAAGAGGACGGTTGTCCTAACAGAGTCCTCCGTG TCTTCTGCCTTAGCGGAGCTCGCTACTAAGACCTTCGGCAGCTCCGAATCATCGGCCGTC GACAGCGGCACGGCGACCGCCCTTCCTGACCAGGCCTCCGACGACGGTGACAAAGGATCC GACGTTGAGTCGTACTCCTCCATGCCCCCCCTTGAGGGGGAACCGGGGGACCCCGATCTC AGTGACGGGTCTTGGTCTACCGTGAGCGAGGAAGCTAGTGAGGATGTCGTCTGCTGCTCA ATGTCCTACACATGGACAGGCGCCTTGATCACGCCATGCGCTGCGGAGGAAAGCAAGCTG CCCATCAACGCGTTGAGCAACTCTTTGCTGCGCCACCATAACATGGTTTATGCCACAACA TCTCGCAGCGCAGGCCTGCGGCAGAAGAAGGTCACCTTTGACAGACTGCAAGTCCTGGAC GACCACTACCGGGACGTGCTCAAGGAGATGAAGGCGAAGGCGTCCACAGTTAAGGCTAAA CTCCTATCCGTAGAGGAAGCCTGCAAGCTGACGCCCCCACATTCGGCCAAATCCAAGTTT GGCTATGGGGCAAAGGACGTCCGGAACCTATCCAGCAAGGCCGTTAACCACATCCACTCC GTGTGGAAGGACTTGCTGGAAGACACTGTGACACCAATTGACACCACCATCATGGCAAAA AATGAGGTTTTCTGTGTCCAACCAGAGAAAGGAGGCCGTAAGCCAGCCCGCCTTATCGTA TTCCCAGATCTGGGAGTCCGTGTATGCGAGAAGATGGCCCTCTATGATGTGGTCTCCACC CTTCCTCAGGTCGTGATGGGCTCCTCATACGGATTCCAGTACTCTCCTGGGCAGCGAGTC GAGTTCCTGGTGAATACCTGGAAATCAAAGAAAAACCCCATGGGCTTTTCATATGACACT CGCTGTTTCGACTCAACGGTCACCGAGAACGACATCCGTGTTGAGGAGTCAATTTACCAA TGTTGTGACTTGGCCCCCGAAGCCAGACAGGCCATAAAATCGCTCACAGAGCGGCTTTAT ATCGGGGGTCCTCTGACTAATTCAAAAGGGCAGAACTGCGGTTATCGCCGGTGCCGCGCG AGCGGCGTGCTGACGACTAGCTGCGGTAACACCCTCACATGTTACTTGAAGGCCTCTGCA GCCTGTCGAGCTGCGAAGCTCCAGGACTGCACGATGCTCGTGAACGGAGACGACCTCGTC GTTATCTGTGAAAGCGCGGGAACCCAAGAGGACGCGGCGAGCCTACGAGTCTTCACGGAG GCTATGACTAGGTACTCCGCCCCCCCCGGGGACCCGCCCCAACCAGAATACGACTTGGAG CTGATAACATCATGTTCCTCCAATGTGTCGGTCGCCCACGATGCATCAGGCAAAAGGGTG TACTACCTCACCCGTGATCCCACCACCCCCCTAGCACGGGCTGCGTGGGAGACAGCTAGA CACACTCCAGTTAACTCCTGGCTAGGCAACATTATTATGTATGCGCCCACTTTGTGGGCA AGGATGATTCTGATGACTCACTTCTTCTCCATCCTTCTAGCGCAGGAGCAACTTGAAAAA GCCCTGGACTGCCAGATCTACGGGGCCTGTTACTCCATTGAGCCACTTGACCTACCTCAG ATCATTGAACGACTCCATGGCCTTAGCGCATTTTCACTCCATAGTTACTCTCCAGGTGAG ATCAATAGGGTGGCTTCATGCCTCAGGAAACTTGGGGTACCACCCTTGCGAGTCTGGAGA CATCGGGCCAGGAGCGTCCGCGCTAGGCTACTGTCCCAGGGAGGGAGGGCCGCCACTTGT GGCAAATACCTCTTCAACTGGGCAGTAAAAACCAAACTTAAACTCACTCCAATCCCGGCT GCGTCCCGGCTGGACTTGTCCGGCTGGTTCGTTGCTGGTTACAGCGGGGGAGACATATAT CACAGCCTGTCTCGTGCCCGACCCCGTTGGTTCATGCTGTGCCTACTCCTACTTTCTGTA GGGGTAGGCATCTACCTGCTCCCCAACCGATGA PF01543 HCV_capsid PF01542 HCV_core PF01539 HCV_env PF01560 HCV_NS1 PF01538 HCV_NS2 PF01006 HCV_NS4a PF01001 HCV_NS4b PF01506 HCV_NS5a PF08300 HCV_NS5a_1a PF08301 HCV_NS5a_1b PF02907 Peptidase_S29 PF00998 RdRP_3 component viral capsid component virion component viral envelope function catalytic activity function nucleic acid binding function RNA-directed RNA polymerase activity function RNA binding function structural molecule activity function hydrolase activity function nucleotide binding function purine nucleotide binding function peptidase activity function helicase activity function adenyl nucleotide binding function transferase activity function nucleotidyltransferase activity function binding function ATP binding function transferase activity, transferring phosphorus-containing groups function serine-type peptidase activity process interaction with host process virus-host interaction process metabolism process viral life cycle process transformation of host cell by virus process cellular metabolism process viral infectious cycle process nucleobase, nucleoside, nucleotide and nucleic acid metabolism process viral genome replication process macromolecule metabolism process protein metabolism process cellular protein metabolism process proteolysis process interaction between organisms process interspecies interaction between organisms process transcription process physiological process process symbiosis, encompassing mutualism through parasitism BE0002403 RNA-dependent RNA-polymerase Hepatitis C virus # 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 RNA-dependent RNA-polymerase Involved in RNA binding NS5b Cytoplasmic None 9.02 65754.0 Hepatitis C virus GenBank Gene Database Z97730 UniProtKB O39930 UniProt Accession O39930_9HEPC >RNA-dependent RNA-polymerase SMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSASLRQKKVTFDRLQVL DDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIR SVWKDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVS TLPQAVMGSSYGFQYSPGQRVEFLVNTWKSKKCPMGFSYDTRCFDSTVTENDIRVEESIY QCCDLAPEARQAIRSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKAS AACRAAKLQDCTMLVCGDDLVVICESAGTQEDAASLRAFTEAMTRYSAPPGDPPQPEYDL ELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLW ARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIQRLHGLSAFSLHSYSPG EINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVRTKLKLTPIP AASQLDLSSWFVAGYSGGDIYHSLSRARPRWFMWCLLLLSVGVGIYLLPNR >1776 bp TCGATGTCCTACACATGGACAGGCGCCCTGATCACGCCATGCGCTGCGGAGGAATCCAAG CTGCCCATCAATGCACTGAGCAACTCTTTGCTCCGTCACCACAACATGGTCTATGCTACA ACATCTCGCAGCGCAAGCCTGCGGCAGAAGAAGGTCACCTTTGACAGACTGCAGGTCCTG GACGACCACTACCGGGACGTGCTCAAGGAGATGAAGGCGAAGGCGTCCACAGTTAAGGCT AAACTTCTATCCGTGGAGGAAGCCTGTAAGCTGACGCCCCCACATTCGGCCAAATCTAAA TTTGGCTATGGGGCAAAGGACGTCCGGAACCTATCCAGCAAGGCCGTTAACCACATCCGC TCCGTGTGGAAGGACTTGCTGGAAGACACTGAGACACCAATTGACACCACCATCATGGCA AAAAATGAGGTTTTCTGCGTCCAACCAGAGAAGGGGGGCCGCAAGCCAGCTCGCCTTATC GTATTCCCAGATTTGGGGGTTCGTGTGTGCGAGAAAATGGCCCTTTACGATGTGGTCTCC ACCCTCCCTCAGGCCGTGATGGGCTCTTCATACGGATTCCAGTACTCTCCTGGACAGCGG GTCGAGTTCCTGGTGAATACCTGGAAATCGAAAAAATGCCCTATGGGCTTCTCATATGAC ACCCGCTGCTTTGACTCAACGGTCACTGAGAATGACATCCGTGTTGAGGAGTCAATCTAC CAATGTTGTGACTTGGCCCCCGAAGCCAGACAGGCCATAAGGTCGCTCACAGAGCGGCTT TACATCGGGGGCCCCCTGACTAATTCAAAGGGGCAGAACTGCGGCTATCGCCGGTGCCGC GCGAGCGGTGTACTGACGACCAGCTGCGGTAATACCCTCACATGTTACTTGAAGGCCTCT GCGGCCTGTCGAGCTGCGAAGCTCCAGGACTGCACGATGCTCGTGTGCGGAGACGACCTT GTCGTTATCTGTGAAAGCGCGGGGACCCAAGAGGACGCGGCGAGCCTACGAGCCTTCACG GAGGCTATGACTAGATACTCTGCCCCCCCTGGGGACCCGCCCCAACCAGAATACGACTTG GAGTTGATAACATCATGCTCCTCCAATGTGTCTGTCGCGCACGATGCATCTGGCAAAAGG GTGTACTATCTCACCCGTGACCCCACCACCCCCCTTGCGCGGGCTGCGTGGGAGACAGCT AGACACACTCCAGTCAATTCCTGGCTAGGCAACATCATCATGTATGCGCCCACCTTGTGG GCAAGGATGATCCTGATGACTCATTTCTTCTCCATCCTTCTAGCTCAGGAACAACTTGAA AAAGCCCTAGATTGTCAGATCTACGGGGCCTGTTACTCCATTGAGCCACTTGACCTACCT CAGATCATTCAACGACTCCATGGCCTTAGCGCATTTTCACTCCATAGTTACTCTCCAGGT GAGATCAATAGGGTGGCTTCATGCCTCAGGAAACTTGGGGTACCGCCCTTGCGAGTCTGG AGACATCGGGCCAGAAGTGTCCGCGCTAGGCTACTGTCCCAGGGGGGGAGGGCTGCCACT TGTGGCAAGTACCTCTTCAACTGGGCAGTAAGGACCAAGCTCAAACTCACTCCAATCCCG GCTGCGTCCCAGTTGGATTTATCCAGCTGGTTCGTTGCTGGTTACAGCGGGGGAGACATA TATCACAGCCTGTCTCGTGCCCGACCCCGCTGGTTCATGTGGTGCCTACTCCTACTTTCT GTAGGGGTAGGCATCTACCTGCTCCCCAACCGGTGA PF00998 RdRP_3 function adenyl nucleotide binding function transferase activity function ATP binding function transferase activity, transferring phosphorus-containing groups function binding function nucleic acid binding function RNA binding function catalytic activity function nucleotidyltransferase activity function nucleotide binding function RNA-directed RNA polymerase activity function purine nucleotide binding process viral infectious cycle process viral genome replication process physiological process process nucleobase, nucleoside, nucleotide and nucleic acid metabolism process metabolism process cellular metabolism process transcription process viral life cycle "

All properties reside in the graph file:///home/swish/src/ClioPatria/guidelines3/drugbank_small.nt

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