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PDBsum entry 5mjv
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Contents |
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192 a.a.
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239 a.a.
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257 a.a.
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References listed in PDB file
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Key reference
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Title
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Genomic RNA folding mediates assembly of human parechovirus.
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Authors
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S.Shakeel,
E.C.Dykeman,
S.J.White,
A.Ora,
J.J.Cockburn,
S.J.Butcher,
P.G.Stockley,
R.Twarock.
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Ref.
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Nat Commun, 2017,
8,
5.
[DOI no: ]
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PubMed id
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Abstract
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Assembly of the major viral pathogens of the Picornaviridae family is poorly
understood. Human parechovirus 1 is an example of such viruses that contains 60
short regions of ordered RNA density making identical contacts with the protein
shell. We show here via a combination of RNA-based systematic evolution of
ligands by exponential enrichment, bioinformatics analysis and reverse genetics
that these RNA segments are bound to the coat proteins in a sequence-specific
manner. Disruption of either the RNA coat protein recognition motif or its
contact amino acid residues is deleterious for viral assembly. The data are
consistent with RNA packaging signals playing essential roles in virion
assembly. Their binding sites on the coat proteins are evolutionarily conserved
across the Parechovirus genus, suggesting that they represent potential
broad-spectrum anti-viral targets.The mechanism underlying packaging of genomic
RNA into viral particles is not well understood for human parechoviruses. Here
the authors identify short RNA motifs in the parechovirus genome that bind
capsid proteins, providing approximately 60 specific interactions for virion
assembly.
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