Lotus(Nelumbo nucifera Gaertn.)is an economically important perennial aquatic herb plant in China.Presently,viral diseases caused by Cucumber mosaic virus(CMV)and Dasheen mosaic virus(DsMV)are detected in lotus.In thi...Lotus(Nelumbo nucifera Gaertn.)is an economically important perennial aquatic herb plant in China.Presently,viral diseases caused by Cucumber mosaic virus(CMV)and Dasheen mosaic virus(DsMV)are detected in lotus.In this study,the putatively novel badnaviruses from lotus plants(LBVs)were identified using next-generation sequencing of siRNAs and conventional Sanger sequencing based on the RT/RNase H coding region sequences.Lotus plants infected by LBVs harbored virus quasispecies.A unique recombination event of LBVs was found in a single lotus plant.Sap inoculation showed that LBVs could actively replicate in the lotus plants,but without a wide host range.The field survey of 43 lotus plants in Jiangsu Province showed a prevalence of 62.8%for LBVs,confirming that it is widely distributed in Jiangsu Province of China.展开更多
We report the recovery of a 7068-nt viral sequence from the "viral fossils" embedded in the genome of Alhagi sparsifolia, a typical desert plant. Although the full viral genome remains to be completed, the putative ...We report the recovery of a 7068-nt viral sequence from the "viral fossils" embedded in the genome of Alhagi sparsifolia, a typical desert plant. Although the full viral genome remains to be completed, the putative genome structure, the deduced amino acids and phylogenetic analysis unambiguously demonstrate that this viral sequence represents a novel species of the genus Badnavirus. The putative virus is tentatively termed Alhagi bacilliform virus (ABV). Southern blotting and inverse polymerase chain reaction (PCR) data indicate that the ABV-related sequence is integrated into the A. sparsifolia genome, and probably does not give rise to functional episomal virus. Molecular evidence that the ABV sequence exists widely in A. sparsifolia is also presented. To our knowledge, this is the first endogenous badnavirus identified from plants in the Gobi desert, and may provide new clues on the evolution, geo- graphical distribution as well as the host range of the badnaviruses.展开更多
基金Key project at central government level:The ability establishment of sustainable use for valuable Chinese medicine resources(Grant No.2060302)the National Natural Science Foundation of China(Grant No.31601604)China Agriculture Research System(Grant No.CARS-24).
文摘Lotus(Nelumbo nucifera Gaertn.)is an economically important perennial aquatic herb plant in China.Presently,viral diseases caused by Cucumber mosaic virus(CMV)and Dasheen mosaic virus(DsMV)are detected in lotus.In this study,the putatively novel badnaviruses from lotus plants(LBVs)were identified using next-generation sequencing of siRNAs and conventional Sanger sequencing based on the RT/RNase H coding region sequences.Lotus plants infected by LBVs harbored virus quasispecies.A unique recombination event of LBVs was found in a single lotus plant.Sap inoculation showed that LBVs could actively replicate in the lotus plants,but without a wide host range.The field survey of 43 lotus plants in Jiangsu Province showed a prevalence of 62.8%for LBVs,confirming that it is widely distributed in Jiangsu Province of China.
基金Project supported by the National Natural Science Foundation of China(Nos.31370181 and 31570146)the Fujian Natural Science Funds for Distinguished Young Scholar(No.2014J06008),China
文摘We report the recovery of a 7068-nt viral sequence from the "viral fossils" embedded in the genome of Alhagi sparsifolia, a typical desert plant. Although the full viral genome remains to be completed, the putative genome structure, the deduced amino acids and phylogenetic analysis unambiguously demonstrate that this viral sequence represents a novel species of the genus Badnavirus. The putative virus is tentatively termed Alhagi bacilliform virus (ABV). Southern blotting and inverse polymerase chain reaction (PCR) data indicate that the ABV-related sequence is integrated into the A. sparsifolia genome, and probably does not give rise to functional episomal virus. Molecular evidence that the ABV sequence exists widely in A. sparsifolia is also presented. To our knowledge, this is the first endogenous badnavirus identified from plants in the Gobi desert, and may provide new clues on the evolution, geo- graphical distribution as well as the host range of the badnaviruses.
