School of Medicine
Showing 101-125 of 125 Results
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James Spudich
Douglass M. and Nola Leishman Professor of Cardiovascular Disease, Emeritus
Current Research and Scholarly InterestsThe general research interest of this laboratory is the molecular basis of cell motility, with a current emphasis on power output by the human heart. We have three specific research interests, the molecular basis of energy transduction that leads to ATP-driven myosin movement on actin, the biochemical basis of the regulation of actin and myosin interaction and their assembly states, and the roles these proteins play in vivo, in cell movement, changes in cell shape and muscle contraction.
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Aaron F. Straight
Pfeiffer and Herold Families Professor, Professor of Biochemistry and, by courtesy, of Chemical and Systems Biology
Current Research and Scholarly InterestsWe study the biology of chromosomes. Our research is focused on understanding how chromosomal domains are specialized for unique functions in chromosome segregation, cell division and cell differentiation. We are particularly interested in the genetic and epigenetic processes that govern vertebrate centromere function, in the organization of the genome in the eukaryotic nucleus and in the roles of RNAs in the regulation of chromosome structure.
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Timothy Ting-Hsuan Wu
MD Student, expected graduation Spring 2025
Ph.D. Student in Biochemistry, admitted Summer 2021
MSTP Student
Casual - Non-Exempt, Medicine - Med/Pulmonary, Allergy & Critical Care MedicineCurrent Research and Scholarly InterestsMolecular and cellular basis of lung development, renewal and disease;
Single cell analysis of SARS-CoV-2 lung infection;
Vascular inflammation and immune dysregulation in pulmonary hypertension. -
Haopeng Xiao
Assistant Professor of Biochemistry
BioUnderstanding mechanisms of metabolic regulation in physiology and disease forms the basis for developing therapies to treat diseases in which metabolism is perturbed. Dr. Xiao devises novel mass spectrometry (MS)-based proteomics technologies, combined with data science, to systematically discover mechanisms of metabolic regulation over protein function. His strategies established the first tissue-specific landscape of protein cysteine redox regulation during aging, elucidating mechanisms of redox signaling in physiology that remained elusive for decades. Dr. Xiao also leverages the genetic diversity of outbred populations to systematically annotate protein function and protein-metabolite co-regulation. The aim of his research program is to develop next-generation MS-based strategies to understand mechanisms of metabolic regulation in aging, metabolic disease, and cancer, and to use this knowledge as a basis to develop translational therapeutics.
