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PDBsum entry 2ax0
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Contents |
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* Residue conservation analysis
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PDB id:
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Transferase
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Title:
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Hepatitis c virus ns5b RNA polymerase in complex with a covalent inhibitor (5x)
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Structure:
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Genome polyprotein. Chain: a, b. Fragment: ns5b RNA-directed RNA polymerase. Engineered: yes. Mutation: yes
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Source:
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Hepatitis c virus. Organism_taxid: 11103. Expressed in: escherichia coli. Expression_system_taxid: 562
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Resolution:
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2.00Å
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R-factor:
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0.212
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R-free:
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0.238
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Authors:
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J.P.Powers,D.E.Piper,Y.Li,V.Mayorga,J.Anzola,J.M.Chen,J.C.Jaen,G.Lee, J.Liu,M.G.Peterson,G.R.Tonn,Q.Ye,N.P.Walker,Z.Wang
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Key ref:
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J.P.Powers
et al.
(2006).
SAR and mode of action of novel non-nucleoside inhibitors of hepatitis C NS5b RNA polymerase.
J Med Chem,
49,
1034-1046.
PubMed id:
DOI:
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Date:
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02-Sep-05
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Release date:
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24-Jan-06
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PROCHECK
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Headers
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References
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P26663
(POLG_HCVBK) -
Genome polyprotein from Hepatitis C virus genotype 1b (isolate BK)
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Seq:
Struc:
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3010 a.a.
555 a.a.*
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Key: |
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PfamA domain |
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Secondary structure |
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CATH domain |
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*
PDB and UniProt seqs differ
at 7 residue positions (black
crosses)
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Enzyme class 1:
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E.C.2.7.7.48
- RNA-directed Rna polymerase.
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Reaction:
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RNA(n) + a ribonucleoside 5'-triphosphate = RNA(n+1) + diphosphate
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RNA(n)
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+
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ribonucleoside 5'-triphosphate
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=
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RNA(n+1)
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+
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diphosphate
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Enzyme class 2:
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E.C.3.4.21.98
- hepacivirin.
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Reaction:
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Hydrolysis of four peptide bonds in the viral precursor polyprotein, commonly with Asp or Glu in the P6 position, Cys or Thr in P1 and Ser or Ala in P1'.
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Enzyme class 3:
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E.C.3.4.22.-
- ?????
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Enzyme class 4:
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E.C.3.6.1.15
- nucleoside-triphosphate phosphatase.
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Reaction:
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a ribonucleoside 5'-triphosphate + H2O = a ribonucleoside 5'-diphosphate + phosphate + H+
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ribonucleoside 5'-triphosphate
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+
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H2O
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=
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ribonucleoside 5'-diphosphate
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+
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phosphate
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+
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H(+)
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Enzyme class 5:
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E.C.3.6.4.13
- Rna helicase.
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Reaction:
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ATP + H2O = ADP + phosphate + H+
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ATP
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+
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H2O
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=
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ADP
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+
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phosphate
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+
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H(+)
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Note, where more than one E.C. class is given (as above), each may
correspond to a different protein domain or, in the case of polyprotein
precursors, to a different mature protein.
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Molecule diagrams generated from .mol files obtained from the
KEGG ftp site
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DOI no:
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J Med Chem
49:1034-1046
(2006)
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PubMed id:
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SAR and mode of action of novel non-nucleoside inhibitors of hepatitis C NS5b RNA polymerase.
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J.P.Powers,
D.E.Piper,
Y.Li,
V.Mayorga,
J.Anzola,
J.M.Chen,
J.C.Jaen,
G.Lee,
J.Liu,
M.G.Peterson,
G.R.Tonn,
Q.Ye,
N.P.Walker,
Z.Wang.
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ABSTRACT
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Novel non-nucleoside inhibitors of the HCV RNA polymerase (NS5b) with
sub-micromolar biochemical potency have been identified which are selective for
the inhibition of HCV NS5b over other polymerases. The structures of the
complexes formed between several of these inhibitors and HCV NS5b were
determined by X-ray crystallography, and the inhibitors were found to bind in an
allosteric binding site separate from the active site. Structure-activity
relationships and structural studies have identified the mechanism of action for
compounds in this series, several of which possess drug-like properties, as
unique, reversible, covalent inhibitors of HCV NS5b.
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Literature references that cite this PDB file's key reference
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PubMed id
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Reference
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J.R.Jiang,
F.Xu,
Z.L.Ke,
and
L.Li
(2012).
(5S)-5-Methyl-3-phenyl-2-sulfanyl-idene-1,3-thia-zolidin-4-one.
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Acta Crystallogr Sect E Struct Rep Online,
68,
o34.
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J.A.Pinson,
O.Schmidt-Kittler,
J.Zhu,
I.G.Jennings,
K.W.Kinzler,
B.Vogelstein,
D.K.Chalmers,
and
P.E.Thompson
(2011).
Thiazolidinedione-Based PI3Kα Inhibitors: An Analysis of Biochemical and Virtual Screening Methods.
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ChemMedChem,
6,
514-522.
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B.J.Geiss,
H.Stahla,
A.M.Hannah,
H.H.Gari,
and
S.M.Keenan
(2009).
Focus on flaviviruses: current and future drug targets.
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Future Med Chem,
1,
327.
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K.K.Ng,
J.J.Arnold,
and
C.E.Cameron
(2008).
Structure-function relationships among RNA-dependent RNA polymerases.
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Curr Top Microbiol Immunol,
320,
137-156.
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K.Liu,
H.Lu,
L.Hou,
Z.Qi,
C.Teixeira,
F.Barbault,
B.T.Fan,
S.Liu,
S.Jiang,
and
L.Xie
(2008).
Design, synthesis, and biological evaluation of N-carboxyphenylpyrrole derivatives as potent HIV fusion inhibitors targeting gp41.
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J Med Chem,
51,
7843-7854.
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N.Kaushik-Basu,
A.Bopda-Waffo,
T.T.Talele,
A.Basu,
P.R.Costa,
A.J.da Silva,
S.G.Sarafianos,
and
F.Noël
(2008).
Identification and characterization of coumestans as novel HCV NS5B polymerase inhibitors.
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Nucleic Acids Res,
36,
1482-1496.
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O.Nyanguile,
F.Pauwels,
W.Van den Broeck,
C.W.Boutton,
L.Quirynen,
T.Ivens,
L.van der Helm,
G.Vandercruyssen,
W.Mostmans,
F.Delouvroy,
P.Dehertogh,
M.D.Cummings,
J.F.Bonfanti,
K.A.Simmen,
and
P.Raboisson
(2008).
1,5-benzodiazepines, a novel class of hepatitis C virus polymerase nonnucleoside inhibitors.
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Antimicrob Agents Chemother,
52,
4420-4431.
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PDB code:
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R.Bryk,
B.Gold,
A.Venugopal,
J.Singh,
R.Samy,
K.Pupek,
H.Cao,
C.Popescu,
M.Gurney,
S.Hotha,
J.Cherian,
K.Rhee,
L.Ly,
P.J.Converse,
S.Ehrt,
O.Vandal,
X.Jiang,
J.Schneider,
G.Lin,
and
C.Nathan
(2008).
Selective killing of nonreplicating mycobacteria.
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Cell Host Microbe,
3,
137-145.
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F.Pauwels,
W.Mostmans,
L.M.Quirynen,
L.van der Helm,
C.W.Boutton,
A.S.Rueff,
E.Cleiren,
P.Raboisson,
D.Surleraux,
O.Nyanguile,
and
K.A.Simmen
(2007).
Binding-site identification and genotypic profiling of hepatitis C virus polymerase inhibitors.
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J Virol,
81,
6909-6919.
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The most recent references are shown first.
Citation data come partly from CiteXplore and partly
from an automated harvesting procedure. Note that this is likely to be
only a partial list as not all journals are covered by
either method. However, we are continually building up the citation data
so more and more references will be included with time.
Where a reference describes a PDB structure, the PDB
code is
shown on the right.
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Links
