Diversity and phylogeography of begomoviruses and DNA satellites associated with the leaf curl and mosaic disease complex of eggplant.

Eggplant is one of the important vegetable crops grown across the world, and its production is threatened by both biotic and abiotic stresses. Diseases caused by viruses are becoming major limiting factors for its successful cultivation. A survey for begomovirus-like symptoms in 72 eggplant fields located in six different Indian states revealed a prevalence of disease ranging from 5.2 to 40.2%, and the symptoms recorded were mosaic, mottling, petiole bending, yellowing, and upward curling, vein thickening, and enation of the leaves, and stunting of plants. The causal agent associated with these plants was transmitted from infected leaf samples to healthy eggplant seedlings via grafting and whiteflies (Bemisia tabaci). The presence of begomovirus was confirmed in 72 infected eggplant samples collected from the surveyed fields exhibiting leaf curl and mosaic disease by PCR using begomovirus specifc primers (DNA-A componet), which resulted in an expected amplicon of 1.2 kb. The partial genome sequence obtained from amplified 1.2 kb from all samples indicated that they are closely related begomovirus species, tomato leaf Karnataka virus (ToLCKV, two samples), tomato leaf curl Palampur virus (ToLCPalV, fifty eggplant samples), and chilli leaf curl virus (ChLCuV, twenty samples). Based on the partial genome sequence analysis, fourteen representative samples were selected for full viral genome amplification by the rolling circle DNA amplification (RCA) technique. Analyses of fourteen eggplant isolates genome sequences using the Sequence Demarcation Tool (SDT) indicated that one isolate had the maximum nucleotide (nt) identity with ToLCKV and eight isolates with ToLCPalV. Whereas, four isolates four isolates (BLC1-CH, BLC2-CH, BLC3-CH, BLC4-CH) are showing nucleotide identity of less than 91% with chilli infecting viruses begomoviruses with chilli infecting begomoviruses and as per the guidelines given by the ICTV study group for the classification of begomoviruses these isolates are considered as one novel begomovirus species, for which name, Eggplant leaf curl Chhattisgarh virus (EgLCuChV) is proposed. For DNA-B component, seven eggplant isolates had the highest nt identity with ToLCPalV infecting other crops. Further, DNA satellites sequence analysis indicated that four betasatellites identified shared maximum nucleotide identity with the tomato leaf curl betasatellite and five alphasatellites shared maximum nucleotide identity with the ageratum enation alphasatellite. Recombination and GC plot analyses indicated that the bulk of begomovirus genome and associated satellites presumably originated from of previously known mono and bipartite begomoviruses and DNA satellites. To the best of our knowledge, this is India's first report of ToLCKV and a noval virus, eggplant leaf curl Chhattisgarh virus associated with eggplant leaf curl disease.

Genome characterization and host range studies of Cucumber mosaic virus belonging to the Subgroup IB infecting chilli in India and screening of chilli genotypes for identification of resistance.

Chilli pepper is an important vegetable and spice crop grown worldwide. Chilli is susceptible to various pathogens, among them mosaic disease caused by Cucumber mosaic virus (CMV) is a major constraint for its production. Roving survey was carried out for mosaic disease assessment in chilli at 35 locations comprising five districts of south eastern Karnataka, which was later confirmed for the presence of different viruses in random samples by DAC-ELISA. Results revealed the prevalence of the disease caused by CMV up to 43.00% based on visual assessment. However, only in 64 samples out of 140 infected chilli samples showed CMV infection in DAC-ELISA and revealed the mixed infection of viruses. Mechanical sap inoculation of CMV-Ko isolate induced symptoms on chilli plants, which were similar to the symptoms observed in field. Complete genome sequence of CMV-Ko (RNA1, RNA2 and RNA3) isolate was amplified, cloned and sequenced. Sequence analysis revealed that it shared 83.7-99.1% nucleotide (nt) identity with CMV subgroup IB isolates infecting different crops in India. Recombination analysis of CMV-Ko genome showed that, RNA1 and RNA2 had recombinant origin and not RNA3. Host range studies for CMV-Ko isolate showed its potential of infecting nine host plants out of 21 used for transmission. Fifty advanced chilli lines were screened against CMV-Ko isolate and 27 immune lines to CMV were identified, which can be utilized for management of disease caused by CMV in chilli. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13337-021-00713-3.