Complexity of begomovirus and betasatellite populations associated with chilli leaf curl disease in India.

Chilli, which encompasses several species in the genus Capsicum, is widely consumed throughout the world. In the Indian subcontinent, production of chilli is constrained due to chilli leaf curl disease (ChiLCD) caused by begomoviruses. Despite the considerable economic consequences of ChiLCD on chilli cultivation in India, there have been scant studies of the genetic diversity and structure of the begomoviruses that cause this disease. Here we report on a comprehensive survey across major chilli-growing regions in India. Analysis of samples collected in the survey indicates that ChiLCD-infected plants are associated with a complex of begomoviruses (including one previously unreported species) with a diverse group of betasatellites found in crops and weeds. The associated betasatellites neither enhanced the accumulation of the begomovirus components nor reduced the incubation period in Nicotiana benthamiana. The ChiLCD-associated begomoviruses induced mild symptoms on Capsicum spp., but both the level of helper virus that accumulated and the severity of symptoms were increased in the presence of cognate betasatellites. Interestingly, most of the begomoviruses were found to be intra-species recombinants. The betasatellites possess high nucleotide variability, and recombination among them was also evident. The nucleotide substitution rates were determined for the AV1 gene of begomoviruses (2.60 × 10- 3 substitutions site- 1 year- 1) and the ßC1 gene of betasatellites [chilli leaf curl betasatellite (ChiLCB), 2.57 × 10- 4 substitution site- 1 year- 1; tomato leaf curl Bangladesh betasatellite (ToLCBDB), 5.22 × 10- 4 substitution site- 1 year- 1]. This study underscores the current understanding of Indian ChiLCD-associated begomoviruses and also demonstrates the crucial role of betasatellites in severe disease development in Capsicum spp.

A novel recombinant tomato-infecting begomovirus capable of transcomplementing heterologous DNA-B components.

The genome of a tomato-infecting begomovirus from Ranchi, India, was cloned, sequenced and analysed. The viral genome shared 88.3% sequence identity with an isolate belonging to the species Tobacco curly shoot virus (TbCSV), and this virus should therefore be considered a member of a new species, tentatively named Tomato leaf curl Ranchi virus (ToLCRnV). The DNA-ß molecule, which had 74.5% sequence identity with tomato leaf curl Bangladesh betasatellite (ToLCBDB), is named tomato leaf curl Ranchi betasatellite (ToLCRnB). Phylogenetic analysis revealed that ToLCRnV is related to tomato leaf curl Bangladesh virus (ToLCBDV), tobacco curly shoot virus (TbCSV) and tomato leaf curl Gujarat virus (ToLCGV). An infectivity study with ToLCRnV established the monopartite nature of the viral genome, whereas inoculation with ToLCRnB resulted in increased symptom severity. ToLCRnV could transreplicate DNA-B of tomato leaf curl Gujarat virus (ToLCGV) and tomato leaf curl New Delhi virus (ToLCNDV), both in N. benthamiana and tomato, although DNA-B accumulation of was less than with the wild-type combinations. ToLCRnB could be efficiently replicated by DNA-A of both ToLCNDV and ToLCGV. A leaf disk assay suggests that DNA-A could transreplicate the homologous DNA-B and DNA-ß more efficiently than the heterologous one.

Molecular characterization of a new species of Begomovirus and betasatellite causing leaf curl disease of tomato in India.

A new tomato-infecting begomovirus and cognate betasatellite were characterized from the gangetic plain of northern India. Genome organization of this virus was found to be similar to those of other old world begomoviruses. The DNA-A molecule (2752nt) shared maximum (85.8%) identity with Tomato leaf curl Laos virus-[Laos] (ToLCLV-[LA]; AF195782) from Laos and betasatellite molecule (1349nt) shared maximum (75.8%) identity with Tomato leaf curl Joydebpur betasatellite (ToLCJoB-[BD:Gaz:05]; AJ966244) from Bangladesh. Interestingly, both these molecules showed less identity with known tomato-infecting begomoviruses and their satellites from India. The recombination detection program (RDP) revealed that these molecules are not an outcome of direct exchange of sequences between existing begomovirus species. According to International Committee on Taxonomy of viruses (ICTV) species/strains demarcations norms for viruses belonging to the family Geminiviridae, this is a new Begomovirus species and we named this virus as Tomato leaf curl Patna virus (ToLCPaV) and new beta species as Tomato leaf curl Patna betasatellite (ToLCPaB). Partial tandem repeats of ToLCPaV and ToLCPaB could induce typical leaf curl symptom on tomato (Solanum lycopersicum) and Nicotiana benthamiana. Although, DNA-A could alone infect tomato typical to a monopartite Begomovirus, co-inoculation of DNA-A and DNA-beta resulted more stunting and severe symptoms. Interestingly, association of ToLCPaB did not assist in increased ToLCPaV accumulation in systemic leaves. ToLCPaV neither transreplicate DNA-B of Tomato leaf curl New Delhi virus (ToLCNDV) nor of Tomato leaf curl Gujarat virus (ToLCGV), presumably due to difference in rep-binding sequences. However, ToLCPaB formed viable pseudorecombinant with mono-bipartite ToLCGV DNA-A infecting both N. benthamiana and tomato but could not cause systemic infection on natural host tomato when co-inoculated with ToLCNDV DNA-A, which is a bipartite Begomovirus.