Split personality of a Potyvirus: to specialize or not to specialize?

Monica A Kehoe,Brenda A Coutts,Bevan J Buirchell,Roger A C Jones,Boris Alexander Vinatzer

doi:10.1371/journal.pone.0105770

Monica A Kehoe, Brenda A Coutts + Show 3 more

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https://doi.org/10.1371/journal.pone.0105770

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Journal: PloS one	Publication Date: Aug 22, 2014
Citations: 63	License type: CC BY 4.0

Affiliation: University of Western Australia, Agriculture and Food

Abstract

Bean yellow mosaic virus (BYMV), genus Potyvirus, has an extensive natural host range encompassing both dicots and monocots. Its phylogenetic groups were considered to consist of an ancestral generalist group and six specialist groups derived from this generalist group during plant domestication. Recombination was suggested to be playing a role in BYMV's evolution towards host specialization. However, in subsequent phylogenetic analysis of whole genomes, group names based on the original hosts of isolates within each of them were no longer supported. Also, nine groups were found and designated I-IX. Recombination analysis was conducted on the complete coding regions of 33 BYMV genomes and two genomes of the related Clover yellow vein virus (CYVV). This analysis found evidence for 12 firm recombination events within BYMV phylogenetic groups I–VI, but none within groups VII–IX or CYVV. The greatest numbers of recombination events within a sequence (two or three each) occurred in four groups, three which formerly constituted the single ancestral generalist group (I, II and IV), and group VI. The individual sequences in groups III and V had one event each. These findings with whole genomes are consistent with recombination being associated with expanding host ranges, and call into question the proposed role of recombination in the evolution of BYMV, where it was previously suggested to play a role in host specialization. Instead, they (i) indicate that recombination explains the very broad natural host ranges of the three BYMV groups which infect both monocots and dicots (I, II, IV), and (ii) suggest that the three groups with narrow natural host ranges (III, V, VI) which also showed recombination now have the potential to reduce host specificity and broaden their natural host ranges.

Highlights

Bean yellow mosaic virus (BYMV), genus Potyvirus, occurs worldwide, and has an extensive natural host range that encompasses domesticated and wild plants species, including both monocots and dicots
To determine if recombination was playing a role in their symptom expression, our research examined the example of infection with BYMV causing black pod syndrome (BPS) or systemic necrosis in L. angustifolius plants [6,29]
It revealed the presence of extensive recombination within three BYMV phylogenetic groups that include both monocots and dicots as natural hosts, supporting the suggestion that recombination leads to broadening of natural host ranges

Summary

Introduction

Bean yellow mosaic virus (BYMV), genus Potyvirus, occurs worldwide, and has an extensive natural host range that encompasses domesticated and wild plants species, including both monocots and dicots. It causes serious diseases in a wide range of crops [1,2,3,4], e.g recent studies found that late infection with BYMV causes black pod syndrome (BPS) in Lupinus angustifolius (narrow-leafed lupin) and substantial yield losses [5,6]. BYMV is transmitted non-persistently by many different aphid species [1,7] It consists of an RNA single stranded plus sense genome of about 10 kb. PIPO has been linked to virulence determinacy in potyvirus resistant plants of Pisum sativum (pea) and long distance virus movement [11,12]

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