MOLECULAR ASPECTS OF PLANT VIRUS TRANSMISSION BY OLPIDIUM AND PLASMODIOPHORID VECTORS

Author:

Rochon D'Ann12,Kakani Kishore12,Robbins Marjorie12,Reade Ron12

Affiliation:

1. Agriculture and Agri-Food Canada, Pacific Agri-Food Research Center, Summerland, British Columbia V0H 1Z0, Canada;

2. Faculty of Agricultural Sciences, University of British Columbia, Vancouver, British Columbia V6T 1Z4, Canada;

Abstract

▪ Abstract  The genome structures of a large number of viruses transmitted by olpidium and plasmodiophorid vectors have been determined. The viruses are highly diverse, belonging to 12 genera in at least 4 families. Plasmodiophorids are now classified as protists rather than true fungi. This finding, along with the recognition of the great variety of viruses transmitted by olpidium and plasmodiophorid vectors, will likely lead to an elaboration of the details of in vitro and in vivo transmission mechanisms. Recent progress in elucidating the interaction between Cucumber necrosis virus (CNV) and its zoospore vector suggests that specific sites on the capsid as well as on the zoospore are involved in transmission. Moreover, some features of CNV/zoospore attachment are similar to poliovirus/host cell interactions, suggesting evolutionary conservation of functional features of plant and animal virus capsids.

Publisher

Annual Reviews

Subject

Plant Science

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