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25 - The evolution of the Reoviridae

Published online by Cambridge University Press:  04 May 2010

Adrian J. Gibbs
Affiliation:
Australian National University, Canberra
Charles H. Calisher
Affiliation:
Colorado State University
Fernando García-Arenal
Affiliation:
Universidad Politécnica de Madrid
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Summary

Introduction

Although the sequences of the various genome segments of members of the eight genera that constitute the Reoviridae family have diverged completely, they still possess several common functional motifs, and the structural proteins that they encode have retained the ability to form structurally similar virus particles. The evolution of reoviruses has proceeded via genetic drift driven by positive and negative selection (acquisition of new hosts and ability of proteins to accommodate amino acid substitutions, respectively), which included not only point mutations but also partial genetic duplications, and proceeded in its early stages, at least under some conditions, via transitions rather than transversions. Evolution also proceeded via genetic shift which, for these viruses (rigid icosahedral particles) was successful only when the newly introduced genome segments resulted in the formation of virus particles no less stable than those generated by the parental homologous genome segment set.

Members of the Reoviridae family possess unique genomes that consist of 10, 11 or 12 segments of dsRNA that vary in size from 600 to 4000 bp. They form eight genera the genome segments of whose members have diverged to the point of complete randomness, do not re-assort (that is, cannot be incorporated into each others’ genomes), and encode proteins which although retaining key functions, possess no common epitopes. The question of the evolution of reoviruses can be examined both within these eight genera, and among them.

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Publisher: Cambridge University Press
Print publication year: 1995

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