With the support of the National Natural Science Foundation of China,the research team led by Prof.Zhou XuePing(周雪平)at the State Key Laboratory for Biology of Plant Diseases and Insect Pests,Institute of Plant Prot...With the support of the National Natural Science Foundation of China,the research team led by Prof.Zhou XuePing(周雪平)at the State Key Laboratory for Biology of Plant Diseases and Insect Pests,Institute of Plant Protection,Chinese Academy of Agricultural Sciences,revealed the counter-defensive strategies deployed by geminivirus-associated betasatellites to overcome the antiviral arsenal of plants,which has been published in Trends in Plant Science(2019,http://doi.org/10/1016/j.tplants.2019.03.010).展开更多
Betasatellites(DNAβ)are circular ssDNA molecules that are associated with monopartite geminiviruses and exert a positive effect on the viral infection.Betasatellites encode one protein,namedβC1,on the complementary ...Betasatellites(DNAβ)are circular ssDNA molecules that are associated with monopartite geminiviruses and exert a positive effect on the viral infection.Betasatellites encode one protein,namedβC1,on the complementary strand;βC1 functions as a pathogenicity factor and RNA silencing suppressor.In this report,we describe the identification of another betasatellite-encoded protein,βV1,which also contributes to symptom development.TheβV1 open reading frame can be found on the viral strand of approximately 40%of reported betasatellite sequences,and is conserved in position and sequence.The presence of theβV1 transcript was observed in plants infected with Tomato yellow leaf curl China virus(TYLCCNV)along with its associated betasatellite Tomato yellow leaf curl China betasatellite(TYLCCNB).Mutant viruses unable to produceβV1 showed reduced virulence and decreased viral load.Ectopic expression of the TYLCCNB-βV1 gene in Nicotiana benthamiana plants from a PVX-based vector resulted in leaf mosaic and chlorosis.We further demonstrated that theβV1 protein could elicit hypersensitive response(HR)-type cell death in N.benthamiana leaves.Our results uncover a novel betasatellite-encoded protein that contributes to the virus infection,and this discover gives us a more complete view of the plant-geminivirus interaction landscape.展开更多
文摘With the support of the National Natural Science Foundation of China,the research team led by Prof.Zhou XuePing(周雪平)at the State Key Laboratory for Biology of Plant Diseases and Insect Pests,Institute of Plant Protection,Chinese Academy of Agricultural Sciences,revealed the counter-defensive strategies deployed by geminivirus-associated betasatellites to overcome the antiviral arsenal of plants,which has been published in Trends in Plant Science(2019,http://doi.org/10/1016/j.tplants.2019.03.010).
基金supported by grants from the National Natural Science Foundation of China to Y.Q.W.(31972235)and to X.P.Z.(31720103914)。
文摘Betasatellites(DNAβ)are circular ssDNA molecules that are associated with monopartite geminiviruses and exert a positive effect on the viral infection.Betasatellites encode one protein,namedβC1,on the complementary strand;βC1 functions as a pathogenicity factor and RNA silencing suppressor.In this report,we describe the identification of another betasatellite-encoded protein,βV1,which also contributes to symptom development.TheβV1 open reading frame can be found on the viral strand of approximately 40%of reported betasatellite sequences,and is conserved in position and sequence.The presence of theβV1 transcript was observed in plants infected with Tomato yellow leaf curl China virus(TYLCCNV)along with its associated betasatellite Tomato yellow leaf curl China betasatellite(TYLCCNB).Mutant viruses unable to produceβV1 showed reduced virulence and decreased viral load.Ectopic expression of the TYLCCNB-βV1 gene in Nicotiana benthamiana plants from a PVX-based vector resulted in leaf mosaic and chlorosis.We further demonstrated that theβV1 protein could elicit hypersensitive response(HR)-type cell death in N.benthamiana leaves.Our results uncover a novel betasatellite-encoded protein that contributes to the virus infection,and this discover gives us a more complete view of the plant-geminivirus interaction landscape.
