Abstract
BackgroundSynergism between southern rice black-streaked dwarf virus (SRBSDV) and rice ragged stunt virus (RRSV) not only aggravates disease symptoms but also enhances their vector acquisition efficiencies by increasing both viruses’ titers in co-infected rice plants, which may exacerbate the epidemic of both viruses and cause significant damage to rice production. The molecular mechanism of viral synergism of these two viruses remains unexplored.MethodsSingle and double infection of SRBSDV and RRSV were obtained with the viruliferous white-backed planthopper and brown planthopper inoculation on four-leaf stage rice seedlings, respectively, under experimental condition. The second upper leaf from each inoculated rice plants were collected at 9, 15, and 20 days post inoculation (dpi) and used for relative quantification of 13 SRBSDV genes and 11 RRSV genes by the reverse-transcription quantitative PCR. Viral gene expression levels were compared between singly and doubly infected samples at the same stage.ResultsThe movement protein and viroplasm matrix-related genes as well as the structural (capsid) protein genes of both viruses were remarkably up-regulated at different time points in the co-infected rice plants compared with the samples singly infected with SRBSDV or RRSV, however, the RNA silencing suppressor (P6) of only RRSV, but not of both the viruses, was up-regulated.ConclusionsThe SRBSDV-RRSV synergism promoted replication and movement of both viruses and inhibited the host immunity by enhancing the gene suppressing effect exerted by one of them (RRSV).
Highlights
Synergism between southern rice black-streaked dwarf virus (SRBSDV) and rice ragged stunt virus (RRSV) aggravates disease symptoms and enhances their vector acquisition efficiencies by increasing both viruses’ titers in co-infected rice plants, which may exacerbate the epidemic of both viruses and cause significant damage to rice production
We found that compared with rice plants infected by SRBSDV or RRSV individually, the expression levels of some genes involved in SRBSDV and RRSV viroplasm formation were significantly up-regulated, and yet, of the RNA silencing suppressor (RSS) of the two viruses, only P6 of RRSV was up-regulated, while some of the structural genes of both viruses were up-regulated
These findings suggest that synergism of SRBSDV and RRSV stimulates replication and movement of both viruses and weakens the host immunity through the RSS function of one of them, which result in an increase in both viruses’ titers in doubly infected rice plants
Summary
Synergism between southern rice black-streaked dwarf virus (SRBSDV) and rice ragged stunt virus (RRSV) aggravates disease symptoms and enhances their vector acquisition efficiencies by increasing both viruses’ titers in co-infected rice plants, which may exacerbate the epidemic of both viruses and cause significant damage to rice production. The molecular mechanism of viral synergism of these two viruses remains unexplored. Southern rice black-streaked dwarf virus (SRBSDV) and Rice ragged stunt virus (RRSV) are members of Reoviridae family. The SRBSDV genome has ten linear double-stranded RNA (dsRNA) segments containing 13 open reading frames (ORFs), which putatively encode six structural proteins (P1 to P4, P8 and P10) and seven nonstructural proteins (P5-1, P5-2, P6, P7-1, P7-2, P9-1 and P9-2). The functions of P5-2, P7-2 and P9-2 remain unknown
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