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PDBsum entry 4xha
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References listed in PDB file
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Key reference
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Title
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The structure of the RNA-Dependent RNA polymerase of a permutotetravirus suggests a link between primer-Dependent and primer-Independent polymerases.
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Authors
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D.S.Ferrero,
M.Buxaderas,
J.F.Rodríguez,
N.Verdaguer.
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Ref.
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Plos Pathog, 2015,
11,
e1005265.
[DOI no: ]
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PubMed id
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Abstract
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Thosea asigna virus (TaV), an insect virus belonging to the Permutatetraviridae
family, has a positive-sense single-stranded RNA (ssRNA) genome with two
overlapping open reading frames, encoding for the replicase and capsid proteins.
The particular TaV replicase includes a structurally unique RNA-dependent RNA
polymerase (RdRP) with a sequence permutation in the palm sub-domain, where the
active site is anchored. This non-canonical arrangement of the RdRP palm is also
found in double-stranded RNA viruses of the Birnaviridae family. Both virus
families also share a conserved VPg sequence motif at the polymerase N-terminus
which in birnaviruses appears to be used to covalently link a fraction of the
replicase molecules to the 5'-end of the genomic segments. Birnavirus VPgs are
presumed to be used as primers for replication initiation. Here we have solved
the crystal structure of the TaV RdRP, the first non-canonical RdRP of a ssRNA
virus, in its apo- form and bound to different substrates. The enzyme arranges
as a stable dimer maintained by mutual interactions between the active site
cleft of one molecule and the flexible N-terminal tail of the symmetrically
related RdRP. The latter, partially mimicking the RNA template backbone, is
involved in regulating the polymerization activity. As expected from previous
sequence-based bioinformatics predictions, the overall architecture of the TaV
enzyme shows important resemblances with birnavirus polymerases. In addition,
structural comparisons and biochemical analyses reveal unexpected similarities
between the TaV RdRP and those of Flaviviruses. In particular, a long loop
protruding from the thumb domain towards the central enzyme cavity appears to
act as a platform for de novo initiation of RNA replication. Our findings
strongly suggest an unexpected evolutionary relationship between the RdRPs
encoded by these distant ssRNA virus groups.
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