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PredicateValue (sorted: none)
rdf:type
owl:sameAs
rdfs:label
"(2z)-2-(Benzoylamino)-3-[4-(2-Bromophenoxy)Phenyl]-2-Propenoic Acid"
drugbank:description
" experimental This compound belongs to the bromodiphenyl ethers. These are ether derivatives of bromodiphenyl. Bromodiphenyl Ethers Organic Compounds Benzenoids Benzene and Substituted Derivatives Bromodiphenyl Ethers N-acyl-alpha Amino Acids Hippuric Acid Derivatives Cinnamic Acids Diarylethers Phenylpropenes Benzoyl Derivatives Phenol Ethers Bromobenzenes Amino Fatty Acids Aryl Bromides Enones Secondary Carboxylic Acid Amides Carboxylic Acids Enamines Polyamines Enolates Organobromides cinnamic acid or derivative cinnamic acid diaryl ether alpha-amino acid or derivative benzamide phenylpropene phenol ether benzoyl bromobenzene aryl bromide aryl halide enone carboxamide group secondary carboxylic acid amide ether enamine carboxylic acid carboxylic acid derivative enolate polyamine organobromide organohalogen amine organonitrogen compound logP 4.72 ALOGPS logS -6.1 ALOGPS Water Solubility 3.56e-04 g/l ALOGPS logP 4.92 ChemAxon IUPAC Name (2Z)-3-[4-(2-bromophenoxy)phenyl]-2-(phenylformamido)prop-2-enoic acid ChemAxon Traditional IUPAC Name (2Z)-3-[4-(2-bromophenoxy)phenyl]-2-(phenylformamido)prop-2-enoic acid ChemAxon Molecular Weight 438.271 ChemAxon Monoisotopic Weight 437.026270652 ChemAxon SMILES OC(=O)C(\NC(=O)C1=CC=CC=C1)=C\C1=CC=C(OC2=CC=CC=C2Br)C=C1 ChemAxon Molecular Formula C22H16BrNO4 ChemAxon InChI InChI=1S/C22H16BrNO4/c23-18-8-4-5-9-20(18)28-17-12-10-15(11-13-17)14-19(22(26)27)24-21(25)16-6-2-1-3-7-16/h1-14H,(H,24,25)(H,26,27)/b19-14- ChemAxon InChIKey InChIKey=WLPJLQNKCJWAFL-RGEXLXHISA-N ChemAxon Polar Surface Area (PSA) 75.63 ChemAxon Refractivity 110.66 ChemAxon Polarizability 39.99 ChemAxon Rotatable Bond Count 6 ChemAxon H Bond Acceptor Count 3 ChemAxon H Bond Donor Count 2 ChemAxon pKa (strongest acidic) 3.24 ChemAxon pKa (strongest basic) -7 ChemAxon Physiological Charge -1 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 657131 PubChem Substance 46508533 BindingDB 50166405 PDB PH7 BE0001245 Genome polyprotein HCV # 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 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 8.07 327024.0 HCV GenBank Gene Database D90208 GenBank Protein Database 221611 UniProtKB P26662 UniProt Accession POLG_HCVJA 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 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERSQPRG RRQPIPKARRPEGRTWAQPGYPWPLYGNEGMGWAGWLLSPRGSRPSWGPTDPRRRSRNLG KVIDTLTCGFADLMGYIPLVGAPLGGAARALAHGVRVLEDGVNYATGNLPGCSFSIFLLA LLSCLTIPASAYEVRNVSGIYHVTNDCSNSSIVYEAADMIMHTPGCVPCVRESNFSRCWV ALTPTLAARNSSIPTTTIRRHVDLLVGAAALCSAMYVGDLCGSVFLVSQLFTFSPRRYET VQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVSQLLRIPQAVVDMVAGAHWGVLAGLA YYSMVGNWAKVLIVMLLFAGVDGHTHVTGGRVASSTQSLVSWLSQGPSQKIQLVNTNGSW HINRTALNCNDSLQTGFIAALFYAHRFNASGCPERMASCRPIDEFAQGWGPITHDMPESS DQRPYCWHYAPRPCGIVPASQVCGPVYCFTPSPVVVGTTDRFGAPTYSWGENETDVLLLS NTRPPQGNWFGCTWMNSTGFTKTCGGPPCNIGGVGNNTLVCPTDCFRKHPEATYTKCGSG PWLTPRCMVDYPYRLWHYPCTVNFTVFKVRMYVGGVEHRLNAACNWTRGERCDLEDRDRS ELSPLLLSTTEWQILPCSFTTLPALSTGLIHLHRNIVDVQYLYGIGSAVVSFAIKWEYIL LLFLLLADARVCACLWMMLLIAQAEATLENLVVLNAASVAGAHGLLSFLVFFCAAWYIKG RLVPGAAYALYGVWPLLLLLLALPPRAYAMDREMAASCGGAVFVGLVLLTLSPYYKVFLA RLIWWLQYFITRAEAHLQVWVPPLNVRGGRDAIILLTCAVHPELIFDITKLLLAILGPLM VLQAGITRVPYFVRAQGLIRACMLVRKVAGGHYVQMAFMKLAALTGTYVYDHLTPLRDWA HAGLRDLAVAVEPVVFSDMETKLITWGADTAACGDIISGLPVSARRGKEILLGPADSFGE QGWRLLAPITAYSQQTRGLLGCIITSLTGRDKNQVDGEVQVLSTATQSFLATCVNGVCWT VYHGAGSKTLAGPKGPITQMYTNVDQDLVGWPAPPGARSMTPCTCGSSDLYLVTRHADVV PVRRRGDSRGSLLSPRPISYLKGSSGGPLLCPSGHVVGIFRAAVCTRGVAKAVDFIPVES METTMRSPVFTDNSSPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAA TLGFGAYMSKAHGIEPNIRTGVRTITTGGPITYSTYCKFLADGGCSGGAYDIIICDECHS TDSTTILGIGTVLDQAETAGARLVVLATATPPGSITVPHPNIEEVALSNTGEIPFYGKAI PIEAIKGGRHLIFCHSKKKCDELAAKLTGLGLNAVAYYRGLDVSVIPTSGDVVVVATDAL MTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTLPQDAVSRAQRRGRTGRGRSGIYR FVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWES VFTGLTHIDAHFLSQTKQAGDNLPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHG PTPLLYRLGAVQNEVTLTHPITKYIMACMSADLEVVTSTWVLVGGVLAALAAYCLTTGSV VIVGRIILSGRPAVIPDREVLYQEFDEMEECASHLPYIEQGMQLAEQFKQKALGLLQTAT KQAEAAAPVVESKWRALEVFWAKHMWNFISGIQYLAGLSTLPGNPAIASLMAFTASITSP LTTQNTLLFNILGGWVAAQLAPPSAASAFVGAGIAGAAVGSIGLGKVLVDILAGYGAGVA GALVAFKVMSGEMPSTEDLVNLLPAILSPGALVVGVVCAAILRRHVGPGEGAVQWMNRLI AFASRGNHVSPTHYVPESDAAARVTQILSSLTITQLLKRLHQWINEDCSTPCSGSWLKDV WDWICTVLSDFKTWLQSKLLPRLPGLPFLSCQRGYKGVWRGDGIMQTTCPCGAQITGHVK NGSMRIVGPKTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFH YVTGMTTDNVKCPCQVPAPEFFTEVDGVRLHRYAPVCKPLLREEVVFQVGLNQYLVGSQL PCEPEPDVAVLTSMLTDPSHITAETAKRRLARGSPPSLASSSASQLSAPSLKATCTTHHD SPDADLIEANLLWRQEMGGNITRVESENKVVILDSFDPIRAVEDEREISVPAEILRKPRK FPPALPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPSTKAPPIPPPRRKRTVVLTESTV SSALAELATKTFGSSGSSAVDSGTATGPPDQASDDGDKGSDVESYSSMPPLEGEPGDPDL SDGSWSTVSGEAGEDVVCCSMSYTWTGALITPCAAEESKLPINPLSNSLLRHHSMVYSTT SRSASLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKARLLSIEEACKLTPPHSAKSKF GYGAKDVRSLSSRAVNHIRSVWEDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPARLIV FPDLGVRVCEKMALYDVVSTLPQAVMGPSYGFQYSPGQRVEFLVNTWKSKKCPMGFSYDT RCFDSTVTENDIRTEESIYQCCDLAPEARQAIRSLTERLYVGGPLTNSKGQNCGYRRCRA SGVLTTSCGNTLTCYLKATAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAAALRAFTE AMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETVR HTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQ IIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRAKLLSQGGRAATC GKYLFNWAVKTKLKLTPIPAASQLDLSGWFVAGYNGGDIYHSLSRARPRWFMLCLLLLSV GVGIYLLPNR >9033 bp ATGAGCACAAATCCTAAACCTCAAAGAAAAACCAAACGTAACACCAACCGCCGCCCACAG GACGTTAAGTTCCCGGGCGGTGGTCAGATCGTTGGTGGAGTTTACCTGTTGCCGCGCAGG GGCCCCAGGTTGGGTGTGCGCGCGACTAGGAAGACTTCCGAGCGGTCGCAACCTCGTGGA AGGCGACAACCTATCCCCAAGGCTCGCCGGCCCGAGGGTAGGACCTGGGCTCAGCCCGGG TACCCTTGGCCCCTCTATGGCAACGAGGGTATGGGGTGGGCAGGATGGCTCCTGTCACCC CGTGGCTCTCGGCCTAGTTGGGGCCCCACAGACCCCCGGCGTAGGTCGCGTAATTTGGGT AAGGTCATCGATACCCTTACATGCGGCTTCGCCGACCTCATGGGGTACATTCCGCTTGTC GGCGCCCCCCTAGGGGGCGCTGCCAGGGCCCTGGCACATGGTGTCCGGGTTCTGGAGGAC GGCGTGAACTATGCAACAGGGAATCTGCCCGGTTGCTCTTTCTCTATCTTCCTCTTAGCT TTGCTGTCTTGTTTGACCATCCCAGCTTCCGCTTACGAGGTGCGCAACGTGTCCGGGATA TACCATGTCACGAACGACTGCTCCAACTCAAGTATTGTGTATGAGGCAGCGGACATGATC ATGCACACCCCCGGGTGCGTGCCCTGCGTCCGGGAGAGTAATTTCTCCCGTTGCTGGGTA GCGCTCACTCCCACGCTCGCGGCCAGGAACAGCAGCATCCCCACCACGACAATACGACGC CACGTCGATTTGCTCGTTGGGGCGGCTGCTCTCTGTTCCGCTATGTACGTTGGGGATCTC TGCGGATCCGTTTTTCTCGTCTCCCAGCTGTTCACCTTCTCACCTCGCCGGTATGAGACG GTACAAGATTGCAATTGCTCAATCTATCCCGGCCACGTATCAGGTCACCGCATGGCTTGG GATATGATGATGAACTGGTCACCTACAACGGCCCTAGTGGTATCGCAGCTACTCCGGATC CCACAAGCCGTCGTGGACATGGTGGCGGGGGCCCACTGGGGTGTCCTAGCGGGCCTTGCC TACTATTCCATGGTGGGGAACTGGGCTAAGGTCTTGATTGTGATGCTACTCTTTGCTGGC GTTGACGGGCACACCCACGTGACAGGGGGAAGGGTAGCCTCCAGCACCCAGAGCCTCGTG TCCTGGCTCTCACAAGGCCCATCTCAGAAAATCCAACTCGTGAACACCAACGGCAGCTGG CACATCAACAGGACCGCTCTGAATTGCAATGACTCCCTCCAAACTGGGTTCATTGCTGCG CTGTTCTACGCACACAGGTTCAACGCGTCCGGGTGCCCAGAGCGCATGGCTAGCTGCCGC CCCATCGATGAGTTCGCTCAGGGGTGGGGTCCCATCACTCATGATATGCCTGAGAGCTCG GACCAGAGGCCATATTGCTGGCACTACGCGCCTCGACCGTGCGGGATCGTGCCTGCGTCG CAGGTGTGTGGTCCAGTGTATTGCTTCACTCCGAGCCCTGTTGTAGTGGGGACGACCGAT CGTTTCGGCGCTCCTACGTATAGCTGGGGGGAGAATGAGACAGACGTGCTGCTACTTAGC AACACGCGGCCGCCTCAAGGCAACTGGTTTGGGTGCACGTGGATGAACAGCACTGGGTTC ACCAAGACGTGCGGGGGCCCTCCGTGCAACATCGGGGGGGTCGGCAACAACACCTTGGTC TGCCCCACGGATTGCTTCCGGAAGCACCCCGAGGCCACTTACACAAAGTGTGGCTCGGGG CCCTGGTTGACACCCAGGTGCATGGTTGACTACCCATACAGGCTCTGGCACTACCCCTGC ACTGTTAACTTTACCGTCTTTAAGGTCAGGATGTATGTGGGGGGCGTGGAGCACAGGCTC AATGCTGCATGCAATTGGACTCGAGGAGAGCGCTGTGACTTGGAGGACAGGGATAGGTCA GAACTCAGCCCGCTGCTGCTGTCTACAACAGAGTGGCAGATACTGCCCTGTTCCTTCACC ACCCTACCGGCCCTGTCCACTGGCTTGATCCATCTTCACCGGAACATCGTGGACGTGCAA TACCTGTACGGTATAGGGTCGGCAGTTGTCTCCTTTGCAATCAAATGGGAGTATATCCTG TTGCTTTTCCTTCTTCTGGCGGACGCGCGCGTCTGTGCCTGCTTGTGGATGATGCTGCTG ATAGCCCAGGCTGAGGCCACCTTAGAGAACCTGGTGGTCCTCAATGCGGCGTCTGTGGCC GGAGCGCATGGCCTTCTCTCCTTCCTCGTGTTCTTCTGCGCCGCCTGGTACATCAAAGGC AGGCTGGTCCCTGGGGCGGCATATGCTCTCTATGGCGTATGGCCGTTGCTCCTGCTCTTG CTGGCCTTACCACCACGAGCTTATGCCATGGACCGAGAGATGGCTGCATCGTGCGGAGGC GCGGTTTTTGTAGGTCTGGTACTCTTGACCTTGTCACCATACTATAAGGTGTTCCTCGCT AGGCTCATATGGTGGTTACAATATTTTATCACCAGAGCCGAGGCGCACTTGCAAGTGTGG GTCCCCCCTCTCAATGTTCGGGGAGGCCGCGATGCCATCATCCTCCTTACATGCGCGGTC CATCCAGAGCTAATCTTTGACATCACCAAACTCCTGCTCGCCATACTCGGTCCGCTCATG GTGCTCCAGGCTGGCATAACTAGAGTGCCGTACTTTGTACGCGCTCAGGGGCTCATCCGT GCATGCATGTTAGTGCGGAAGGTCGCTGGAGGCCACTATGTCCAAATGGCCTTCATGAAG CTGGCCGCGCTGACAGGTACGTACGTATATGACCATCTTACTCCACTGCGGGATTGGGCC CACGCGGGCCTACGAGACCTTGCGGTGGCAGTAGAGCCCGTCGTCTTCTCTGACATGGAG ACTAAACTCATCACCTGGGGGGCAGACACCGCGGCGTGTGGGGACATCATCTCGGGTCTA CCAGTCTCCGCCCGAAGGGGGAAGGAGATACTTCTAGGACCGGCCGATAGTTTTGGAGAG CAGGGGTGGCGGCTCCTTGCGCCTATCACGGCCTATTCCCAACAAACGCGGGGCCTGCTT GGCTGTATCATCACTAGCCTCACAGGTCGGGACAAGAACCAGGTCGATGGGGAGGTTCAG GTGCTCTCCACCGCAACGCAATCTTTCCTGGCGACCTGCGTCAATGGCGTGTGTTGGACC GTCTACCATGGTGCCGGCTCGAAGACCCTGGCCGGCCCGAAGGGTCCAATCACCCAAATG TACACCAATGTAGACCAGGACCTCGTCGGCTGGCCGGCGCCCCCCGGGGCGCGCTCCATG ACACCGTGCACCTGCGGCAGCTCGGACCTTTACTTGGTCACGAGGCATGCTGATGTCGTT CCGGTGCGCCGGCGGGGCGACAGCAGGGGGAGCCTGCTTTCCCCCAGGCCCATCTCCTAC CTGAAGGGCTCCTCGGGTGGACCACTGCTTTGCCCTTCGGGGCACGTTGTAGGCATCTTC CGGGCTGCTGTGTGCACCCGGGGGGTTGCGAAGGCGGTGGACTTCATACCCGTTGAGTCT ATGGAAACTACCATGCGGTCTCCGGTCTTCACAGACAACTCATCCCCTCCGGCCGTACCG CAAACATTCCAAGTGGCACATTTACACGCTCCCACTGGCAGCGGCAAGAGCACCAAAGTG CCGGCTGCATATGCAGCCCAAGGGTACAAGGTGCTCGTCCTAAACCCGTCCGTTGCCGCC ACATTGGGCTTTGGAGCGTATATGTCCAAGGCACATGGCATCGAGCCTAACATCAGAACT GGGGTAAGGACCATCACCACGGGCGGCCCCATCACGTACTCCACCTATTGCAAGTTCCTT GCCGACGGTGGATGCTCCGGGGGCGCCTATGACATCATAATATGTGATGAATGCCACTCA ACTGACTCGACTACCATCTTGGGCATCGGCACAGTCCTGGATCAGGCAGAGACGGCTGGA GCGCGGCTCGTCGTGCTCGCCACCGCCACGCCTCCGGGATCGATCACCGTGCCACACCCC AACATCGAGGAAGTGGCCCTGTCCAACACTGGAGAGATTCCCTTCTATGGCAAAGCCATC CCCATTGAGGCCATCAAGGGGGGAAGGCATCTCATCTTCTGCCATTCCAAGAAGAAGTGT GACGAGCTCGCCGCAAAGCTGACAGGCCTCGGACTCAATGCTGTAGCGTATTACCGGGGT CTCGATGTGTCCGTCATACCGACTAGCGGAGACGTCGTTGTCGTGGCAACAGACGCTCTA ATGACGGGTTTTACCGGCGACTTTGACTCAGTGATCGACTGCAACACATGTGTCACCCAG ACAGTCGATTTCAGCTTGGATCCCACCTTCACCATTGAGACGACAACGCTGCCCCAAGAC GCGGTGTCGCGTGCGCAGCGGCGAGGTAGGACTGGCAGGGGCAGGAGTGGCATCTACAGG TTTGTGACTCCAGGAGAACGGCCCTCAGGCATGTTCGACTCCTCGGTCCTGTGTGAGTGC TATGACGCAGGCTGCGCTTGGTATGAGCTCACGCCCGCTGAGACCTCGGTTAGGTTGCGG GCTTACCTAAATACACCAGGGTTGCCCGTCTGCCAGGACCACCTAGAGTTCTGGGAGAGC GTCTTCACAGGCCTCACCCACATAGATGCCCACTTCTTGTCCCAGACCAAACAGGCAGGA GACAACCTCCCCTACCTGGTAGCATACCAAGCCACAGTGTGCGCCAGGGCTCAGGCTCCA CCTCCATCGTGGGACCAAATGTGGAAGTGTCTCATACGGCTAAAGCCCACACTGCATGGG CCAACGCCCCTGCTGTACAGGCTAGGAGCCGTTCAAAATGAGGTCACTCTCACACACCCC ATAACCAAATACATCATGGCATGCATGTCGGCTGACCTGGAGGTCGTCACTAGCACCTGG GTGCTAGTAGGCGGAGTCCTTGCGGCTCTGGCCGCGTACTGCCTGACGACAGGCAGCGTG GTCATTGTGGGCAGGATCATCTTGTCCGGGAGGCCAGCTGTTATTCCCGACAGGGAAGTC CTCTACCAGGAGTTCGATGAGATGGAAGAGTGTGCTTCACACCTCCCTTACATCGAGCAA GGAATGCAGCTCGCCGAGCAATTCAAACAGAAGGCGCTCGGATTGCTGCAAACAGCCACC AAGCAAGCGGAGGCTGCTGCTCCCGTGGTGGAGTCCAAGTGGCGAGCCCTTGAGGTCTTC TGGGCGAAACACATGTGGAACTTCATCAGCGGGATACAGTACTTGGCAGGCCTATCCACT CTGCCTGGAAACCCCGCGATAGCATCATTGATGGCTTTTACAGCCTCTATCACCAGCCCG CTCACCACCCAAAATACCCTCCTGTTTAACATCTTGGGGGGATGGGTGGCTGCCCAACTC GCTCCCCCCAGCGCTGCTTCGGCTTTCGTGGGCGCCGGCATTGCCGGTGCGGCCGTTGGC AGCATAGGTCTCGGGAAGGTACTTGTGGACATTCTGGCGGGCTATGGGGCGGGGGTGGCT GGCGCACTCGTGGCCTTTAAGGTCATGAGCGGCGAGATGCCCTCCACTGAGGATCTGGTT AATTTACTCCCTGCCATCCTTTCTCCTGGCGCCCTGGTTGTCGGGGTCGTGTGCGCAGCA ATACTGCGTCGGCACGTGGGCCCGGGAGAGGGGGCTGTGCAGTGGATGAACCGGCTGATA GCGTTCGCTTCGCGGGGTAACCACGTCTCCCCCACGCACTATGTGCCCGAGAGCGACGCC GCGGCGCGTGTTACTCAGATCCTCTCCAGCCTTACCATCACTCAGTTGCTGAAGAGGCTT CATCAGTGGATTAATGAGGACTGCTCCACGCCTTGTTCCGGCTCGTGGCTAAAGGATGTT TGGGACTGGATATGCACGGTGTTGAGTGACTTCAAGACTTGGCTCCAGTCCAAGCTCCTG CCGCGGTTACCGGGACTCCCTTTCCTGTCATGCCAACGCGGGTACAAGGGAGTCTGGCGG GGGGATGGCATCATGCAAACCACCTGCCCATGTGGAGCACAGATCACCGGACATGTCAAA AATGGCTCCATGAGGATTGTTGGGCCAAAAACCTGCAGCAACACGTGGCATGGAACATTC CCCATCAACGCATACACCACGGGCCCCTGCACGCCCTCCCCAGCGCCGAACTATTCCAGG GCGCTGTGGCGGGTGGCTGCTGAGGAGTACGTGGAGGTTACGCGGGTGGGGGATTTCCAC TACGTGACGGGCATGACCACTGACAACGTGAAATGCCCATGCCAGGTTCCAGCCCCTGAA TTTTTCACGGAGGTGGATGGAGTACGGTTGCACAGGTATGCTCCAGTGTGCAAACCTCTC CTACGAGAGGAGGTCGTATTCCAGGTCGGGCTCAACCAGTACCTGGTCGGGTCACAGCTC CCATGTGAGCCCGAACCGGATGTGGCAGTGCTCACTTCCATGCTCACCGACCCCTCTCAT ATTACAGCAGAGACGGCCAAGCGTAGGCTGGCCAGGGGGTCTCCCCCCTCCTTGGCCAGC TCTTCAGCTAGCCAGTTGTCTGCGCCTTCTTTGAAGGCGACATGTACTACCCATCATGAC TCCCCGGACGCTGACCTCATCGAGGCCAACCTCCTGTGGCGGCAGGAGATGGGCGGGAAC ATCACCCGTGTGGAGTCAGAAAATAAGGTGGTAATCCTGGACTCTTTCGATCCGATTCGG GCGGTGGAGGATGAGAGGGAAATATCCGTCCCGGCGGAGATCCTGCGAAAACCCAGGAAG TTCCCCCCAGCGTTGCCCATATGGGCACGCCCGGATTACAACCCTCCACTGCTAGAGTCC TGGAAGGACCCGGACTACGTCCCCCCGGTGGTACACGGGTGCCCTTTGCCATCTACCAAG GCCCCCCCAATACCACCTCCACGGAGGAAGAGGACGGTTGTCCTGACAGAGTCCACCGTG TCTTCTGCCTTGGCGGAGCTCGCTACTAAGACCTTTGGCAGCTCCGGGTCGTCGGCCGTT GACAGCGGCACGGCGACTGGCCCTCCCGATCAGGCCTCCGACGACGGCGACAAAGGATCC GACGTTGAGTCGTACTCCTCCATGCCCCCCCTCGAGGGAGAGCCAGGGGACCCCGACCTC AGCGACGGGTCTTGGTCTACCGTGAGCGGGGAAGCTGGTGAGGACGTCGTCTGCTGCTCA ATGTCCTATACATGGACAGGTGCCTTGATCACGCCATGCGCTGCGGAGGAGAGCAAGTTG CCCATCAATCCGTTGAGCAACTCTTTGCTGCGTCACCACAGTATGGTCTACTCCACAACA TCTCGCAGCGCAAGTCTGCGGCAGAAGAAGGTCACCTTTGACAGACTGCAAGTCCTGGAC GACCACTACCGGGACGTGCTCAAGGAGATGAAGGCGAAGGCGTCCACAGTTAAGGCTAGG CTTCTATCTATAGAGGAGGCCTGCAAACTGACGCCCCCACATTCGGCCAAATCCAAATTT GGCTACGGGGCGAAGGACGTCCGGAGCCTATCCAGCAGGGCCGTCAACCACATCCGCTCC GTGTGGGAGGACTTGCTGGAAGACACTGAAACACCAATTGATACCACCATCATGGCAAAA AATGAGGTTTTCTGCGTCCAACCAGAGAAAGGAGGCCGCAAGCCAGCTCGCCTTATCGTA TTCCCAGACCTGGGGGTACGTGTATGCGAGAAGATGGCCCTTTACGACGTGGTCTCCACC CTTCCTCAGGCCGTGATGGGCCCCTCATACGGATTCCAGTACTCTCCTGGGCAGCGGGTC GAGTTCCTGGTGAATACCTGGAAATCAAAGAAATGCCCTATGGGCTTCTCATATGACACC CGCTGCTTTGACTCAACGGTCACTGAGAATGACATCCGTACTGAGGAATCAATTTACCAA TGTTGTGACTTGGCCCCCGAAGCCAGGCAGGCCATAAGGTCGCTCACAGAGCGGCTTTAT GTCGGGGGTCCCCTGACTAATTCGAAGGGGCAGAACTGCGGTTATCGCCGGTGCCGCGCA AGTGGCGTGCTGACGACTAGCTGCGGCAACACCCTCACATGTTACTTGAAGGCCACTGCG GCCTGTCGAGCTGCAAAGCTCCAGGACTGCACGATGCTCGTGAACGGAGACGACCTTGTC GTTATCTGTGAGAGTGCGGGAACCCAGGAGGATGCGGCGGCCCTACGAGCCTTCACGGAG GCTATGACTAGGTATTCCGCCCCCCCCGGGGACCCGCCCCAACCAGAATACGACTTGGAG CTGATAACGTCATGCTCCTCCAATGTGTCGGTCGCGCACGATGCATCCGGCAAAAGGGTG TACTACCTCACCCGTGACCCCACCACCCCCCTCGCACGGGCTGCGTGGGAGACAGTTAGA CACACTCCAGTCAACTCCTGGCTAGGCAATATCATCATGTATGCGCCCACCCTATGGGCG AGGATGATTCTGATGACTCATTTCTTCTCTATCCTTCTAGCTCAGGAGCAACTTGAAAAA GCCCTGGATTGTCAGATCTACGGGGCCTGTTACTCCATTGAGCCACTTGACCTACCTCAG ATCATTGAACGACTCCATGGTCTTAGCGCATTTTCACTCCACAGTTACTCTCCAGGTGAG ATCAATAGGGTGGCTTCATGCCTCAGGAAACTTGGGGTACCGCCTTTGCGAGTCTGGAGA CATCGGGCCAGAAGTGTCCGCGCTAAGCTACTGTCCCAGGGGGGGAGGGCTGCCACTTGC GGCAAGTACCTCTTCAACTGGGCAGTAAAGACCAAGCTTAAACTCACTCCAATCCCGGCT GCGTCCCAGCTAGACTTGTCCGGCTGGTTCGTTGCTGGTTACAACGGGGGAGACATATAT CACAGCCTGTCTCGTGCCCGACCCCGTTGGTTCATGTTGTGCCTACTCCTACTTTCTGTA GGGGTAGGCATCTACCTGCTCCCCAACCGGTGA PF00271 Helicase_C 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 "

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

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