Lab Web Sites
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Altman Lab The Helix Group at Stanford is directed by Russ Altman. |
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Attardi Lab The overarching goal of our research is to better define the mechanisms by which the p53 protein promotes different responses in different settings. |
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Baker Lab Cellular differentiation is governed by dynamic changes occurring in the genome. |
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Brunet Lab Our laboratory studies the molecular mechanisms of aging and longevity. |
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Bustamante Lab Analyzing genome wide patterns of variation to address fundamental questions in biology, anthropology, and medicine using computational biology, mathematical genetics, and evolutionary genomics. |
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Calos Lab The Calos Lab is interested in developing novel gene and cell therapy approaches to address human diseases. |
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Cherry Lab Innovation in literature curation, dataset validation and ontologies enhance experimental results. |
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Cohen Lab Certain of our investigations are aimed at elucidating the signals that govern RNA decay. |
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Davis Lab Our center develops new technologies to address important biological questions that otherwise would not be feasible. |
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Fire Lab The Fire Lab studies the mechanisms by which cells and organisms respond to genetic change. |
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Ford Lab The major focus of this laboratory is to explore the mammalian genetic determinants of the inducible response and cellular sensitivity. |
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Fuller Lab A major focus of our work concerns the mechanisms that regulate stem cell behavior. |
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Gitler Lab We investigate the mechanisms of human neurodegenerative diseases. |
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Greely Lab We work on ethical, legal, and social issues in the Biosciences, including genetics. |
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Greenleaf Lab Our lab focuses on developing methods to probe the genome and epigenome at the single-cell and single-molecule levels. |
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Kay Lab We study gene/RNAi therapeutics and the mechanisms of non-coding RNA-induced gene regulation. |
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Kim Lab Research Areas: C. elegans aging, Human aging, automatic cell lineage analyzer, ModENCODE. |
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Li Lab We are primarily interested in identifying and understanding sequence variations in the RNA and DNA. |
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Lipsick Lab Our laboratory studies the structure and function of chromosomes and chromatin in metazoans. |
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Montgomery Lab Our lab focuses on understanding the mechanisms by which genetic variation influences human traits. |
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Ormond Lab Master's Program in Human Genetics and Genetics Counseling. |
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Pringle Lab Applying the model-system approach to studies of yeast cell biology and the cellular and molecular biology of the cnidarian-dinoflagellate symbiosis. |
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Sage Lab We investigate molecular and cellular mechanisms of tumorigenesis and regeneration, with a focus on stem cell biology. |
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Scott Lab Investigating how embryonic and later development is governed by proteins that control gene activity. |
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Sherlock Lab The Sherlock lab is a yeast genomics lab that uses both experimental and computational approaches. |
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Sidow Lab We have a diverse research program at the interface of computational and functional genomics. |
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Snyder Lab We are presently in an omics revolution in which genomes and other omes can be readily characterized. |
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Stearns Lab The central question behind our work is how the centrosome and primary cilium control cell function and influence development. |
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Sun Lab My lab studies the molecular mechanism of transcription factors that govern the transformation of normal mammalian cells to a neoplastic state. |
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Tang Lab Research in our laboratory aims to uncover the evolutionary forces that have shaped the patterns of genetic variations. |
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Villeneuve Lab Understanding the molecular and cellular mechanisms underlying the faithful inheritance and function of eukaryotic chromosomes. |
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Winslow Lab The goal of our lab is to understand the mechanisms of cancer progression and metastasis. |
