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mRNA Capping Enzyme

$421,174R01FY2012GMNIH

Harvard Medical School, Boston MA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Project Summary. The long-term goal of this project is to understand how transcription by RNA polymerase II (RNApII) is coupled to RNA processing and termination. Earlier funding periods of this project produced a model in which the C-terminal domain (CTD) of the RNApII subunit Rpb1 displays characteristic phosphorylation patterns at different stages of the transcription cycle to promote binding of the appropriate factors for co-transcriptional RNA processing. These studies are done in the model system Saccharomyces cerevisiae, but this process is highly conserved over evolution. The fundamental knowledge generated by this project provides significant insight into how the CTD phosphorylation cycle affects medically important processes such as the stimulation of HIV transcription by the viral Tat protein and the pausing of RNApII at developmentally regulated genes in embryonic stem cells. Continuation of this project is necessary to better understand both the enzymes that mediate the changes in CTD phosphorylation (kinases, phosphatases, etc.) as well as the proteins that recognize these patterns. In the next funding period, four specific aims are proposed. The first is a continuation of studies to understand the mechanisms of the two known termination pathways and how RNApII chooses between them: an early termination pathway used for small noncoding transcripts and many cryptic transcripts or the later polyadenylation-coupled termination pathway used for mRNAs. A second related aim is to study the biogenesis of short unstable transcripts produced by divergent transcription of many RNApII promoters, with a focus on what they can tell us about initiation, early elongation, and termination. The third aim will use a new, high- resolution technique for mapping 3' ends of nascent transcripts to further probe the role of CTD phosphorylation in RNA elongation, pausing, and termination. The fourth specific aim builds upon the surprising discovery that the Rpb1 CTD can be transferred onto a different RNApII subunit and still function. This finding forms the basis for a set of experiments asking whether the different CTD modifications and functions need to occur in cis on the same CTD or can be split between two CTDs, and whether these phosphorylations can be bypassed by tethering their targets directly to RNApII.

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