Abstract
Begomovirus (genus Begomovirus, family Geminiviridae) infection is devastating to a wide variety of agricultural crops including tomato, squash, and cassava. Thus, understanding the replication and adaptation of begomoviruses has important translational value in alleviating substantial economic loss, particularly in developing countries. The bipartite genome of begomoviruses prevalent in the New World and their counterparts in the Old World share a high degree of genome homology except for a partially overlapping reading frame encoding the pre-coat protein (PCP, or AV2). PCP contributes to the essential functions of intercellular movement and suppression of host RNA silencing, but it is only present in the Old World viruses. In this study, we analyzed a set of non-redundant bipartite begomovirus genomes originating from the Old World (N = 28) and the New World (N = 65). Our bioinformatic analysis suggests ∼120 nucleotides were deleted from PCP’s proximal promoter region that may have contributed to its loss in the New World viruses. Consequently, genomes of the New World viruses are smaller than the Old World counterparts, possibly compensating for the loss of the intercellular movement functions of PCP. Additionally, we detected substantial purifying selection on a portion of the New World DNA-B movement protein (MP, or BC1). Further analysis of the New World MP gene revealed the emergence of a putative tyrosine phosphorylation site, which likely explains the increased purifying selection in that region. These findings provide important information about the strategies adopted by bipartite begomoviruses in adapting to new environment and suggest future in planta experiments.
Highlights
IntroductionBegomoviruses (genus Begomovirus, family Geminiviridae) are single-stranded DNA viruses of dicots with small genomes - one or two circular segments of ,2.5–2.9 K nucleotides (nts)
Begomoviruses are single-stranded DNA viruses of dicots with small genomes - one or two circular segments of,2.5–2.9 K nucleotides
This commensurate genome size reduction does not seem to be coincidental as bipartite genome segments (DNA-A and DNA-B) in the New World begomoviruses show a higher correlation in size (R = 0.91, p-value,2.2610216) than those in the Old World (R = 0.74, p-value,8.161026)
Summary
Begomoviruses (genus Begomovirus, family Geminiviridae) are single-stranded DNA viruses of dicots with small genomes - one or two circular segments of ,2.5–2.9 K nucleotides (nts). Bipartite begomoviruses, which have two -sized, ambisense genomic segments termed DNA-A and DNA-B, are found worldwide, with monopartite begomoviruses largely restricted to the Old World [7]. The DNA-A segment contains five or six genes, including the capsid protein (CP, known as AV1), the replication-associated protein (REP, known as AC1), a transcriptional activator (TrAP, known as AC2), a replication enhancer (REn, known as AC3) that overlaps with both the REP and TrAP genes and a virulence factor (AC4) that overlaps the reading frame within REP. The DNA-B segment contains two non-overlapping genes: the nuclear shuttle protein (NSP, known as BV1), and the movement protein (MP, known as BC1)
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