608-263-5916 (office); 608-261-1148/5-9743 (labs)
841a Robert M Bock Lab
BS, 1976, Physics, Iowa State University
PhD, 1981, Biophysics, University of Wisconsin-Madison
Paul J. Kaesberg Professor of Oncology and Molecular Virology
Howard Hughes Medical Institute Investigator
Professor of Plant Pathology
Associate Director of Basic Research, UW Carbone Cancer Center
We are studying the novel, RNA-based pathways and virus-host interactions underlying replication, gene expression and evolution by positive-strand RNA viruses, the largest class of viruses. Positive strand RNA viruses include many important human pathogens such as hepatitis C virus, which chronically infects nearly 3% of the world population, causing progressive liver damage and liver cancer, and the new SARS coronavirus. We are also studying selected replication processes of a reverse-transcribing virus, hepatitis B virus, which is also a major human tumor virus. Our studies integrate molecular genetics, genomics, biochemistry and cell biology to address fundamental questions in virus replication and virus-cell interactions.
Viruses are divided into six distinct classes differing in the type of nucleic acid in the virus particle and its replication pathways. Recently, we discovered multiple, detailed structural and functional parallels among the replication complexes of three of these six virus classes: positive-strand RNA viruses, retroviruses and dsRNA viruses. These results imply a significant functional and evolutionary unification within virology, and have opened the door to many exciting new experimental questions and approaches that we are now pursuing.
We also have identified the first higher eukaryotic viruses that can direct genome replication, gene expression and virion assembly in the genetically tractable yeast Saccharomyces cerevisiae. Using yeast genetics and genomics, we are identifying a growing number of host genes required for viral RNA replication and are studying how these function with virus-encoded helicase- and polymerase-like replication factors and diverse cis-acting viral RNA signals to direct assembly and function of the membrane-bound viral genome replication complexes and other processes.
Member, National Institutes of Health Virology A Study Section, 2010-Present