Local view for "http://wifo5-04.informatik.uni-mannheim.de/drugbank/resource/drugs/DB01720"
| Predicate | Value (sorted: default) |
|---|---|
| rdfs:label |
"(2z)-2-(Benzoylamino)-3-[4-(2-Bromophenoxy)Phenyl]-2-Propenoic Acid"
|
| rdf:type | |
| 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
"
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All properties reside in the graph file:///home/swish/src/ClioPatria/guidelines3/drugbank_small.nt
The resource does not appear as an object