School of Life Sciences, Central University of Gujarat, Gandhinagar, 382 030, Gujarat, India.
Department of Botany, Patna Science College, Patna University, Patna, 800 005, Bihar, India.
Virus Res. 2021 Apr 2;295:198319. doi: 10.1016/j.virusres.2021.198319. Epub 2021 Jan 26.
In India, begomovirus infection causing tomato leaf curl disease (ToLCD) is a major constraint for tomato productivity. Here, we have identified two distinct monopartite begomovirus and betasatellite complexes causing ToLCD in the western part of India. A new monopartite begomovirus (Tomato leaf curl Mumbai virus, ToLCMumV) and betasatellite (Tomato leaf curl Mumbai betasatellite, ToLCMumB) were isolated from the Mumbai sample. A distinct Tomato leaf curl Gandhinagar virus (ToLCGanV) and Tomato leaf curl Gandhinagar betasatellite (ToLCGanB) were identified from the Gandhinagar sample. Both of the cloned begomoviruses were recombinants. The demonstration of systemic infection caused by begomovirus (ToLCGanV or ToLCMumV) alone in N. benthamiana and tomato (a virus resistant variety) emphasizes that they were monopartite begomoviruses. Co-inoculation of cognate begomovirus and betasatellite reduces the incubation period and increases symptom severity. Thus, Koch's postulates were satisfied for these virus complexes. Further, an enhanced accumulation of ToLCGanV was detected in the presence of cognate ToLCGanB, however ToLCMumB did not influence the level of ToLCMumV in the agro-inoculated tomato plants. Our results indicate that the cloned viruses form potential virus resistance breaking disease complexes in India. This necessitates to investigate the spread of these disease complexes to major tomato growing regions in the country.
在印度,由单分体病毒引起的番茄曲叶病毒病(ToLCD)是番茄生产的主要限制因素。在这里,我们鉴定出了两种不同的单分体病毒和贝塔卫星复合物,它们在印度西部引起了 ToLCD。一种新的单分体病毒(孟买番茄曲叶病毒,ToLCMumV)和贝塔卫星(孟买番茄曲叶贝塔卫星,ToLCMumB)从孟买样本中分离出来。从甘地讷格尔样本中鉴定出了一种独特的番茄曲叶病毒(番茄曲叶甘地讷格尔病毒,ToLCGanV)和番茄曲叶甘地讷格尔卫星(番茄曲叶甘地讷格尔贝塔卫星,ToLCGanB)。这两种克隆的单分体病毒均为重组病毒。在本氏烟和番茄(一种抗病毒品种)中单独由病毒(ToLCGanV 或 ToLCMumV)引起的系统性感染表明它们是单分体病毒。伴生的单分体病毒和贝塔卫星的共同接种减少了潜伏期并增加了症状严重程度。因此,这些病毒复合物满足科赫氏假设。进一步,在存在同源的 ToLCGanB 时,检测到 ToLCGanV 的积累增加,然而 ToLCMumB 并不影响农杆菌接种的番茄植株中 ToLCMumV 的水平。我们的结果表明,克隆的病毒在印度形成了潜在的打破病毒抗性的疾病复合物。这需要调查这些疾病复合物在印度主要番茄种植区的传播情况。
