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PDBsum entry 5lts
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References listed in PDB file
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Key reference
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Title
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Crystal structures of lymphocytic choriomeningitis virus endonuclease domain complexed with diketo-Acid ligands.
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Authors
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M.Saez-Ayala,
E.L.Yekwa,
M.Carcelli,
B.Canard,
K.Alvarez,
F.Ferron.
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Ref.
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IUCrJ, 2018,
5,
223-235.
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PubMed id
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Abstract
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The Arenaviridae family, together with the Bunyaviridae and
Orthomyxoviridae families, is one of the three negative-stranded RNA
viral families that encode an endonuclease in their genome. The endonuclease
domain is at the N-terminus of the L protein, a multifunctional protein that
includes the RNA-dependent RNA polymerase. The synthesis of mRNA in arenaviruses
is a process that is primed by capped nucleotides that are 'stolen' from the
cellular mRNA by the endonuclease domain in cooperation with other domains of
the L protein. This molecular mechanism has been demonstrated previously for the
endonuclease of the prototype Lymphocytic choriomeningitis virus (LCMV).
However, the mode of action of this enzyme is not fully understood as the
original structure did not contain catalytic metal ions. The pivotal role played
by the cap-snatching process in the life cycle of the virus and the highly
conserved nature of the endonuclease domain make it a target of choice for the
development of novel antiviral therapies. Here, the binding affinities of two
diketo-acid (DKA) compounds (DPBA and L-742,001) for the endonuclease domain of
LCMV were evaluated using biophysical methods. X-ray structures of the LCMV
endonuclease domain with catalytic ions in complex with these two compounds were
determined, and their efficacies were assessed in an in vitro
endonuclease-activity assay. Based on these data and computational simulation,
two new DKAs were synthesized. The LCMV endonuclease domain exhibits a good
affinity for these DKAs, making them a good starting point for the design of
arenavirus endonuclease inhibitors. In addition to providing the first example
of an X-ray structure of an arenavirus endonuclease incorporating a ligand, this
study provides a proof of concept that the design of optimized inhibitors
against the arenavirus endonuclease is possible.
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