Departments & Organizations
Molecular Virology: Virology laboratories
Yale Combined Program in the Biological and Biomedical Sciences (BBS): Biochemistry, Quantitative Biology, Biophysics and Structural Biology (BQBS): DNA Dynamics and Transcriptional Regulation; Drug Design, Discovery and Mechanism; RNA Processing and Ribonucleoprotein Machines; Virology, Infection and Immunity | Computational Biology and Bioinformatics: Computational Analysis of Macromolecular Structures | Molecular Cell Biology, Genetics and Development
Anna Marie Pyle is the William Edward Gilbert Professor of Molecular, Cellular and Developmental Biology and Professor of Chemistry at Yale University.She has been a Howard Hughes Medical Institute Investigator since 1997.Dr. Pyle obtained her undergraduate degree in Chemistry from Princeton University and received her Ph.D. in Chemistry from Columbia University in 1990, where she worked with Professor Jacqueline K. Barton. Dr. Pyle was a postdoctoral fellow in the laboratory of Thomas Cech at the University of Colorado. Dr. Pyle formed her own research group in 1992 in the Department of Biochemistry and Molecular Biophysics at Columbia University Medical Center.In 2002, she moved to Yale University, where she leads a research group that specializes in structure and function of large RNA molecules and RNA remodeling enzymes.Dr. Pyle teaches the undergraduate Molecular Biology course at Yale and she is Chair of the Building Committee for the new Yale Biology Building.Dr. Pyle is the Chair of the MSFA Study Section at the NIH, and previously served as a permanent member on the MSFE, and MGB Study Sections.At Brookhaven National labs, she serves on the Science and Technology Steering Committee and on Beamline Advisory Teams at the NSLSII light source.Dr. Pyle is the Co-Editor of Methods in Enzymology and serves on the Editorial Board of the Journal of Molecular Biology.Dr. Pyle is the author of over 160 publications and has mentored more than 40 graduate students and postdocs.The Pyle laboratory uses a diverse set of biochemical techniques, including crystallography and enzymology, to understand the structural complexity of large RNA molecules. She pioneered the study of RNA helicase enzymes and other RNA-stimulated ATPases that serve as translocases, RNA remodeling enzymes and signaling enzymes in the cell.Her experimental work is complemented by efforts to develop new computational tools for modeling, analyzing and predicting RNA structure.
Education & Training
|Postdoctoral Fellow||University of Colorado|