Pei Yong Shi


Affiliation: Department of Biochemistry & Molecular Biology
Tel: (409) 772-6370
Route: 1055
5.138B MRB

Pei-Yong Shi, Ph.D.

I.H. Kempner Professor of Human Genetics


The Shi lab integrates both academic and industrial expertise for basic and translational research. Our research focuses on flaviviruses that cause significant human diseases, such as dengue, Zika, West Nile, and Japanese encephalitis viruses. Despite their global public health burden, there is no clinically approved therapy for flavivirus infection. To address this huge unmet medical need, we take a multidisciplinary approach (i) to study the molecular mechanism of viral replication and (ii) to translate the knowledge into antiviral, vaccine, and diagnostic products. Many of our projects are highly collaborative with both academic and pharmaceutical partners around the world. We also aspire to apply the knowledge achieved from the flavivirus research to drug discovery and vaccine development for other viral pathogens.

  1. Flavivirus replication
    Understanding viral replication at a molecular level is essential for development of novel intervention. Our basic research is designed to decipher how viral and cellular factors modulate each other during viral infection, leading to productive viral replication and effective immune response. Our experimental approach includes biochemistry, structural biology, chemical biology, molecular biology, and disease modeling in vivo. The goal of these studies is to define the mechanisms of viral replication and host response that could be used for therapeutics, vaccine, and diagnostic development. Progressing at the forefront of basic research provides a competitive edge for our translational research. In return, the translational research poses new questions and provides unique tools (such as inhibitors) for the viral replication research.
  2. Antiviral development
    Four strategies have been pursued to identify flavivirus inhibitors: (i) High-throughput screening (HTS) using viral infection assays; (ii) HTS using viral enzyme assays; (iii) structure-based in silico docking and rational design; (iv) repurposing clinical compounds (that have been previously developed for other indications) for potential treatment of flavivirus infection. New insights derived from viral replication research (described above) have enabled us to design new inhibitors of viral proteins or inhibitors of host factors that are essential for viral infection. Through collaboration with medicinal chemists and pharmacologists, we advance these inhibitors towards preclinical and clinical development.
  3. Vaccine development
    We are taking several distinct approaches to develop novel vaccines. For example, we discovered and invented a novel vaccine approach using mutant viruses defective in 2’-O methylation of viral RNA. Viruses that replicate in the cytoplasm cannot access to the host nuclear capping machinery. These viruses have evolved viral methyltransferase(s) to methylate N-7 and 2’-O cap of their RNA; alternatively, they ‘snatch’ host mRNA cap to form the 5’-end of viral RNA. The function of 2’-O methylation of viral RNA cap is to mimic cellular mRNA and to evade host innate immune restriction. A cytoplasmic virus defective in 2’-O methylation is replicative; but its viral RNA lacks 2’-O methylation, and is recognized and subsequently eliminated by host immune response. We are applying this novel vaccine approach to flaviviruses.

Pei-Yong Shi, PhD, is I.H. Kempner Professor of Human Genetics, University of Texas Medical Branch, Galveston Texas, USA. He is also adjunct Professor of Emerging Infectious Diseases at the Duke-NUS Graduate Medical School in Singapore and Honorary Professor at the Wuhan Institute of Virology, Chinese Academy of Sciences. He received his Ph.D. in virology in 1996 from Georgia State University. After postdoctoral training at Yale University, he joined Bristol-Myers Squibb as a Principal Scientist to develop HIV and HCV therapeutics from 1998 to 2000. He then moved to the Wadsworth Center, New York State Department of Health, to study West Nile virus. From 2008 to 2015, he served as Dengue Unit Head and Executive Director to lead drug discovery at Novartis Institute for Tropical Diseases. His group developed the first infectious clones of the epidemic strain of West Nile virus and Zika virus, discovered two RNA cap methylation activities of flavivirus NS5 protein, identified essential RNA elements for flavivirus replication, established various platforms for flavivirus vaccine and drug discovery, and pioneered therapeutics development for dengue virus. He has published over 210 peer-reviewed articles and served as Editor (ACS Infectious Diseases, Journal of General Virology, and Nature Vaccine) and Editorial Board member (Journal of Virology, Virology, and Antiviral Research). He is internationally recognized for his scholar and administrative accomplishments at leading research institution, public health sector, and pharmaceutical industry.