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PDBsum entry 5k8u
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References listed in PDB file
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Key reference
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Title
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Molecular mechanism of divalent-Metal-Induced activation of ns3 helicase and insights into zika virus inhibitor design.
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Authors
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X.Cao,
Y.Li,
X.Jin,
Y.Li,
F.Guo,
T.Jin.
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Ref.
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Nucleic Acids Res, 2016,
44,
10505-10514.
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PubMed id
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Abstract
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Zika virus has attracted increasing attention because of its potential for
causing human neural disorders, including microcephaly in infants and
Guillain-Barré syndrome. Its NS3 helicase domain plays critical roles in
NTP-dependent RNA unwinding and translocation during viral replication. Our
structural analysis revealed a pre-activation state of NS3 helicase in complex
with GTPγS, in which the triphosphate adopts a compact conformation in the
absence of any divalent metal ions. In contrast, in the presence of a divalent
cation, GTPγS adopts an extended conformation, and the Walker A motif undergoes
substantial conformational changes. Both features contribute to more extensive
interactions between the GTPγS and the enzyme. Thus, this study provides
structural evidence on the allosteric modulation of MgNTP2-on the NS3
helicase activity. Furthermore, the compact conformation of inhibitory NTP
identified in this study provides precise information for the rational drug
design of small molecule inhibitors for the treatment of ZIKV infection.
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