GGrantIndex
← Search

Viral Chromatin Methylation as a Host Defense Against Geminiviruses

$600,000FY2008BIONSF

Ohio State University Research Foundation -Do Not Use, Columbus OH

Investigators

Abstract

In plants, RNA silencing is an important adaptive defense against viruses. The several silencing pathways in plants include post-transcriptional gene silencing (PTGS) mediated by small interfering RNAs (siRNAs), regulation of gene expression by microRNAs (miRNA), and siRNA-directed methylation of DNA and associated histones leading to transcriptional gene silencing (TGS) and the establishment of heterochromatin. Most plant viruses have RNA genomes and are targeted by PTGS, which results in degradation of viral genomes and mRNAs. The transcripts of DNA viruses (e.g. geminiviruses) are also subject to PTGS. In addition, because geminiviruses replicate in the nucleus through dsDNA intermediates that associate with cellular histones, their genomes are subject to methylation and TGS. This project is focused on geminivirus chromatin methylation. The studies proposed are based on several recent discoveries from the Bisaro lab which implicate geminivirus genome methylation as an important host defense and suggest that geminiviruses encode proteins that counter this defense by inhibiting methylation. First, using a combination of genetic and biochemical methods, the antiviral nature of methylation will be confirmed. Second, mechanisms by which the related geminivirus proteins AL2 and L2 suppress and reverse TGS will be studied, and the ability of these proteins to alter cytosine and histone methylation status examined. Finally, because geminiviruses offer a unique access to RNA-directed methylation, geminiviruses will be used as model systems to identify novel cellular genes that participate in the methylation pathway. Methylation controls cellular gene expression during normal development and leads to the establishment of heterochromatin. It also maintains genome integrity by silencing endogenous invasive DNAs such as repeated sequences and transposons. Thus studying geminivirus chromatin methylation promises to increase our understanding of viral pathogenesis and a fundamental process that governs the organization and activity of cellular chromatin. Non-technical Summary In plants, RNA silencing is an important antiviral defense that results in specific degradation of viral mRNA. In the case of DNA viruses, a related process (RNA-directed methylation) leads to the methylation of viral DNA and associated histone proteins that together constitute the viral chromosome. In this project, the role of RNA-directed methylation as a defense against DNA-containing geminiviruses will be determined. The ability of viral proteins to counter this defense and inhibit methylation will also be examined. Finally, geminiviruses will be used as model systems to identify new host genes involved in methylation. Methylation controls cellular gene expression during normal development and is important for organizing inactive regions of cellular chromosomes. Thus studying geminivirus chromatin methylation promises to increase our understanding of viral pathogenesis and a fundamental process that governs the activity of cellular chromatin. A better understanding of host antiviral defenses and viral counterdefense will eventually lead to the development of plants that are better able to withstand or resist virus attack. Further, what is learned in plant systems may also prove applicable to mammalian virus-host interactions. Additional benefits of this project include the training of undergraduate students, graduate students, and postdoctoral fellows (including under-represented minorities) in the concepts and methods of modern molecular biology and virology.

View original record on NSF Award Search →