Phylogenetic and recombination analysis of Begomoviruses associated with Cotton leaf curl disease and in silico analysis of viral-host protein interactions.

ABSTRACT

Cotton leaf curl disease (CLCuD), caused by numerous begomoviruses (BGVs), is a highly disastrous disease in cotton crops worldwide. To date, several efforts have shown limited success in controlling this disease. CLCuD-associated BGVs (CABs) are known for their high rate of intra and interspecific recombinations, which raises an urgent need to find an efficient and conserved target region to combat disease. In the present study, phylogenetic analysis of selected 11 CABs, along with associated alphasatellites, and betasatellites revealed a close evolutionary relationship among them. Recombination analysis of 1374 isolates of CABs revealed 54 recombination events for the major players of CLCuD in cotton and the Cotton leaf curl Multan virus (CLCuMuV) as the most recombinant CAB. Recombination breakpoints were frequent in all regions except C2 and C3. C3-encoded protein, known as viral replication enhancer (REn), promotes viral replication by enhancing the activity of replicase (Rep) protein. Both proteins were found to contain significantly conserved domains and motifs. The identified motifs were found crucial for their interaction with host protein PCNA (Proliferating cell nuclear antigen), facilitating viral replication. Interruption at the REn-PCNA and Rep-PCNA interactions by targeting the identified conserved motifs is proposed as a prospect to halt viral replication, after suitable experimental validation.