Scripps research wu. Catz, Eric F.
Scripps research wu. Sergio D. One of our research focuses is to understand the mechanisms of the checkpoint control and DNA repair in the maintenance of genome stability. May 20, 2024 LA JOLLA, CA — The brain is often referred to as a “black box”—one that’s difficult to peer inside and determine what’s happening at any given Research Focus DNA double-strand break repair and cell cycle checkpoints in mammalian cells. Research areas ? Biomedical knowledgebase infrastructure and inference engine ? Semantic knowledge presentation and integration ? Biomedical resource discovery ? Clinical informatics May 20, 2024 ยท New method to reveal what drives brain diseases Scripps Research scientists develop CRISPR screen technology to determine disease mechanism from tissues with accelerated speed. The Peng WU | Cited by 6,040 | of The Scripps Research Institute, California (scripps) | Read 58 publications | Contact Peng WU Research Focus We are currently focusing on applying data science methodology and cloud computing technologies to facilitate biomedical discovery, through the large-scale biological data integration. The research in the Wu laboratory integrates synthetic chemistry with glycobiology to explore the cellular and molecular mechanisms that control immune responses toward cancer and human pathogens. Catz, Eric F. The Co-authors Yi Liu The Molecular Foundry, Lawrence Berkeley National Laboratory Tianqing Zheng The Scripps Research Institute Kelley Moremen Distinguished Research Professor, Complex Carbohydrate Research Center, University of Georgia Suhua Li School of Chemistry, Sun Yat-Sen University Xing Chen Peking University Aime Lopez Aguilar Eli Lilly Peng Wu Professor in the Department of Molecular Medicine at The Scripps Research Institute Peng Wu is a Professor in the Department of Molecular Medicine at TSRI. Previously, Peng was an Associate Professor of Biochemistry and the Scientific Director of the Chemical Biology Core Facility at Albert Einstein College of Medicine, New York. Using a combination of genetics and molecular and cellular biology approaches, we study not only the major DSB repair pathways commonly used in normal cells, but also error-prone alternative DSB pathways often elevated during oncogenesis. rfn4t oajl hl9p7t rwqz ek zwnvlric ahcw vi cbh0h gs4
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