R. William Henry
Associate Professor, Associate Chair
- Ph.D. 1992, University of Alberta, Canada
- Postdoctoral Fellow, 1992-1998, Cold Spring Harbor Laboratory, Cold Spring Harbor, NY
henry@msu.edu
409 Biochemistry Building
Michigan State University
East Lansing, MI 48824-1319
Office: 517-353-3980
Lab: 517-353-3980
FAX: 517-353-9334
Lab Home Page
Publication search:
R. William Henry Research Interests continued
In addition, other snRNAs process RNA primers required for mitochondrial DNA replication. Thus, snRNAs play pivotal roles in numerous cellular processes. The genes for these snRNAs are unusual because they have similar promoter architectures and yet some snRNA genes are transcribed by RNA polymerase II while others are transcribed by RNA polymerase III. These differences in polymerase choice make this an interesting system for understanding mechanisms of transcription for both RNA polymerases II and III.
The PSE is recognized by the basal transcription factor referred to as snRNA-activating protein complex (SNAPc). SNAPc is a multi-protein complexcomposed of at least five proteins SNAP19, SNAP43, SNAP45, SNAP50,and SNAP190. In addition, the TATA-box binding protein (TBP) can also associate with this complex. Each of these proteins is required for transcription of human snRNA genes by both RNA polymerase II and III.
Our research is focused on how SNAPc functions for snRNA gene transcription. We are interested in four fundamental issues: (1) How does SNAPc function in transcription by both RNA polymerase II and III? (2) How does SNAPc communicate with other specialized factors that are dedicated for transcription by only RNA polymerase II or III? (3) Is SNAPc the target of transcription regulatory proteins? (4) Does SNAPc selectively mediate transcription of some snRNA genes depending upon the demands of the cell? Answers to these questions are important for understanding the complicated network of transcription regulation in the cell.
Full text of research interests