This project addresses how epigenetic modifications induced by geminivirus infection can influence transgenerational patterns of gene expression in tomato, with a particular emphasis on DNA methylation. Viral infection triggers a cascade of host defence responses, including changes in DNA methylation and chromatin structure. These changes, if heritable, may contribute to hidden heritability—heritable phenotypic variation not explained by DNA sequence alone. Such epigenetic alterations may be selected for or against in breeding programs or natural populations, but because they do not necessarily correlate with genetic markers, their role remains obscure. Specifically, this project aims to uncover: Why certain regions of the tomato genome exhibit differential DNA methylation upon geminivirus infection, and which of these regions are associated with changes in gene expression that can be passed on to subsequent generations. We will also investigate the stability and heritability of these virus-induced methylation patterns, identifying why some epigenetic marks are stably inherited while others are not. Upon completion, this work will clarify the extent to which DNA methylation contributes to transgenerational phenotypic variation following virus infection and will inform future strategies for epigenome-based crop improvement and disease resistance breeding.
Disclaimer:
Information available on this portal is sourced from various organizations and is provided for informational purposes only. Users are advised to verify details from the respective official sources.
Please enter your details
Please provide your name and email to continue. Your details are saved in this browser for future use.
Latest Updates
Loading…
⚠️
You are leaving this website
You are about to be redirected to an external website that is not operated by
India Science, Technology & Innovation (ISTI) Portal.