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PDBsum entry 2whx
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References listed in PDB file
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Key reference
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Title
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Flexibility between the protease and helicase domains of the dengue virus ns3 protein conferred by the linker region and its functional implications.
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Authors
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D.Luo,
N.Wei,
D.N.Doan,
P.N.Paradkar,
Y.Chong,
A.D.Davidson,
M.Kotaka,
J.Lescar,
S.G.Vasudevan.
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Ref.
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J Biol Chem, 2010,
285,
18817-18827.
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PubMed id
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Abstract
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The dengue virus (DENV) NS3 protein is essential for viral polyprotein
processing and RNA replication. It contains an N-terminal serine protease region
(residues 1-168) joined to an RNA helicase (residues 180-618) by an 11-amino
acid linker (169-179). The structure at 3.15 A of the soluble NS3 protein from
DENV4 covalently attached to 18 residues of the NS2B cofactor region
(NS2B(18)NS3) revealed an elongated molecule with the protease domain abutting
subdomains I and II of the helicase (Luo, D., Xu, T., Hunke, C., GrĂ¼ber, G.,
Vasudevan, S. G., and Lescar, J. (2008) J. Virol. 82, 173-183). Unexpectedly,
using similar crystal growth conditions, we observed an alternative conformation
where the protease domain has rotated by approximately 161 degrees with respect
to the helicase domain. We report this new crystal structure bound to ADP-Mn(2+)
refined to a resolution of 2.2 A. The biological significance for interdomain
flexibility conferred by the linker region was probed by either inserting a Gly
residue between Glu(173) and Pro(174) or replacing Pro(174) with a Gly residue.
Both mutations resulted in significantly lower ATPase and helicase activities.
We next increased flexibility in the linker by introducing a Pro(176) to Gly
mutation in a DENV2 replicon system. A 70% reduction in luciferase reporter
signal and a similar reduction in the level of viral RNA synthesis were
observed. Our results indicate that the linker region has evolved to an optimum
length to confer flexibility to the NS3 protein that is required both for
polyprotein processing and RNA replication.
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