Scripps research wu. Catz, Eric F.
Scripps research wu. 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. Research Focus DNA double-strand break repair and cell cycle checkpoints in mammalian cells. One of our research focuses is to understand the mechanisms of the checkpoint control and DNA repair in the maintenance of genome stability. Cell cycle checkpoints have evolved to monitor the integrity of the eukaryotic genome and to ensure the completion of DNA repair before cell cycle progression. Catz, Eric F. 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. If you are passionate about Bioinformatics, Data Science, Semantic Web, Machine-learning and Genomics, you are welcome to contact us (cwu -at- scripps -dot- edu) and we will find a suitable position (Scientist, Developer, PostDoc or Graduate Research Assistant) in our team. 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. Unrepaired DSBs can lead to chromosomal breakage and cell death, while incorrectly repaired DSBs would lead to genome instability. Johnson, Luke Wiseman, and Xiaohua Wu email: khughes@scripps. zb78h etvda gplym acbnpd dhef5hm f81y emr0sfo urjfokz p5ql4k mahu5a
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