Coccinia grandis is an interesting model system to understand dioecy in Cucurbitaceae family. Recent transcriptomics and proteomics studies carried out to understand the sex expression in C. grandis have resulted in identification of many candidate sex-biased genes. In absence of an efficient genetic transformation protocol for C. grandis, virus-induced gene silencing (VIGS) would be a powerful tool to enable gene functional analysis. In current study, we explored the apple latent spherical virus (ALSV) for gene knockdown in C. grandis. The viral infection was achieved through mechanical inoculation of ALSV-infected Chenopodium quinoa leaf extract onto the cotyledons of C. grandis. ALSV-VIGS mediated knockdown of CgPDS gene was successfully achieved in C. grandis by mechanical inoculation method resulting in characteristic photobleaching. Subsequently, we developed agroinfiltration compatible vectors for direct infection of C. grandis and shortened the time-frame by skipping viral propagation in C. quinoa. Typical yellow-leaf phenotype was observed in C. grandis plants agroinfiltrated with ALSV-CgSU constructs, indicating robust silencing of CgSU gene. In addition, we improved the infection efficiency of ALSV by co-infiltration of P19 viral silencing suppressor. These results suggest that ALSV-VIGS is suitable for characterization of gene function in dioecious C. grandis and it can help us understand the mechanism of sex expression.
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