Abstract
Sweet potato is among the most important root crops worldwide, particularly in developing countries, and its production is affected severely by a variety of virus diseases. During the last decade, a number of new viruses have been discovered in sweet potatoes through next-generation sequencing studies. Among them are viruses belonging to the genus Badnavirus and collectively assigned to the species sweet potato pakakuy virus (SPPV). We determined the complete genome sequence of two SPPV isolates and show the ubiquitous presence of similar viruses in germplasm and field material from around the globe. We show that SPPV is not integrated into the sweet potato genome, occurs only at extremely low titers, and is efficiently transmitted through seeds and cuttings. They are unaffected by virus elimination therapy and do not induce discernible symptoms in sweet potatoes or indicator host plants. They show considerable variation in their nucleotide sequences and correspond to several genetic lineages. Studies of their interaction with the two most important sweet potato viruses showed only limited synergistic increase in the titers of one of two SPPV isolates. We contend that these viruses may pose little threat to sweet potato production and more likely represent a new type of persistent virus in sweet potato.
Highlights
Sweet potato is one of the most important food crops worldwide and is used for animal feed, as well as for processing
The aim of our study was to investigate (i) whether sweet potato pakakuy virus (SPPV) sequences found in sweet potato represented genome integrated and/or episomal viral sequences, (ii) whether they could be transmitted to other plants horizontally through grafting or vertically through seed, (iii) whether they could be associated with any symptoms, (iv) how common and variable they are in sweet potato germplasm, and (v) if they showed any interaction with the two most common sweet potato viruses sweet potato feathery mottle virus (SPFMV) and sweet potato chlorotic stunt virus (SPCSV)
Because some badnaviruses are known to exist as endogenous pararetroviruses (EPRVs), and EPRVs are targeted by siRNAs through RNA silencing (Chabannes and Iskra-Caruana, 2013), it was important to confirm that we were not detecting integrated sequences
Summary
Sweet potato is one of the most important food crops worldwide and is used for animal feed, as well as for processing. In developing countries, it often serves as a food security crop for subsistent farmers, able to yield even in circumstances where other crops fail. The most important disease of sweet potato is known as the sweet potato virus disease complex (SPVD) It is caused by the synergistic coinfection of sweet potato chlorotic stunt virus (SPCSV; genus Crinivirus, family Closteroviridae) and sweet potato feathery mottle virus (SPFMV; genus Potyvirus, family Potyviridae) and may be exacerbated by infection with additional viruses (Mukasa et al, 2006; Untiveros et al, 2007)
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