| A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W |
X | Y | Z |
- Barsh, Gregory
- Baxter Laboratory in Genetic Pharmacology
- Beaulieu, Christopher
- Bendavid, Eran
- Benjamin, Latanya
- Bernstein, Daniel
- Bland, Richard
- Blau, Helen
- Block, Steven
- Boakye, Maxwell
- Bogyo, Matthew
- Boothroyd, John
- Boxer, Linda
- Brown, Martin
- Brown, Patrick
- Brunet, Anne
- Brunger, Axel
- Brutlag, Douglas
- Buckwalter, Marion
- Butcher, Eugene
- Butte, Atul
- Calos, Michele
- Camarillo, David
- Chang, Anne
- Chang, Ching-Pin
- Chang, Howard
- Chang, Kay
- Chen, Chang-Zheng
- Chen, James
- Cheng, Zhen
- Cherry, J.Michael
- Children's Surgical Research Lab
- Chu, Gilbert
- Chu, Larry
- Cleary, Michael
- Cohen, Harvey
- Cohen, Stanley
- Constantinou, Christos
- Contag, Christopher
- Crabtree, Gerald
- Cyert, Martha
- Fathman, C. Garrison
- Fein, Amanda
- Feldman, Brian
- Felsher, Dean
- Fernald, Russell
- Ferrell, James
- Fire, Andrew
- Ford, James
- Fries, James
- Frommer, Wolf
- Gaba, David
- Galli, Stephen
- Gambhir, Sanjiv
- Garcia, K
- Garner, Craig
- Giaccia, Amato
- Giffard, Rona
- Glenn, Jeffrey
- Glover, Gary
- Gold, Garry
- Goodman, Miriam
- Graef, Isabella
- Graves, Edward
- Greenberg, Peter
- Hahn, Jin
- Harbury, Pehr. A. B.
- Hastie, Trevor
- Herschlag, Daniel
- Herzenberg, Leonore
- Hestrin, Shaul
- Hoffman, Andrew
- Holodniy, Mark
- Howard, Steven
- Hristov, Dimitre
- Hsieh, Michael
- Hsueh, Aaron
- Huang, KC
- Huguenard, John
- Kaiser, A
- Katzenstein, David
- Kay, Mark
- Kerchner, Geoffrey
- Khavari, Paul
- Kim, Seung
- Kim, Stuart
- Kingsley, David
- Kirkegaard, Karla
- Knox, Susan
- Kopito, Ron
- Kornberg, Roger
- Krams, Sheri
- Krasnow, Mark A.
- Kuo, Calvin
- Lee, Peter
- Leppert, John
- Leung, Lawrence
- Levin Craig
- Levy, Ronald
- Levy, Shoshana
- Lewis, David
- Liao, Joseph
- Lin, Michael
- Lipsick, Joseph
- Longaker, Michael T.
- MacIver, M
- Mackey, Sean
- Maduke, Merritt
- Majeti, Ravi
- Malenka, Rob
- Manber, Rachel
- Marinkovich, Matt
- Matin, AC
- McAdams, Harley
- McConnell, Susan
- McKay, David
- McMahan, Uel
- Menon, Vinod
- Merigan, Thomas
- Meyer, Tobias
- Mignot, Emmanuel
- Mochly-Rosen, Daria
- Mocarski, Edward
- Monack, Denise
- Monje, Michelle
- Morioka-Douglas, Nancy
- Moseley, Michael
- Moss, Richard
- Musen, Mark
- Myers, Richard
- Palanker, Daniel
- Pande, Vijay
- Parham, Peter
- Parsonnet, Julie
- Peltz, Gary
- Penn, Anna
- Perkins, David
- Pfeffer, Suzanne
- Plevritis, Sylvia
- Pollack, Jonathan
- Prince, David
- Puglisi, Joseph
- Rabinovitch, Marlene
- Rando, Thomas
- Rao, Jianghong
- Raymond, Jennifer
- Reiss, Allan
- Relman, David
- Remington, Jack
- Robbins, Robert
- Robinson, Terry
- Robinson, William
- Rohatgi, Rajat
- Rubin, Geoffrey
- Rudd, Peter
- Sage, Julien
- Sanger, Terrance
- Sarnow, Peter
- Shatz, Carla J.
- Schneider, David
- Scott, Matthew
- Sherlock, Gavin
- Sibley, Eric
- Sidow, Arend
- Siegel, Robert
- Sikic, Branimir
- Singh, Upinder
- Snyder, Michael
- Somerville, Chris
- Somerville, Shauna
- Spiegel, David
- Spielman, Daniel
- Spudich, James A.
- Stanford Psychology and Biobehavioral Sciences Laboratory
- Stanford Tumor Glycome Laboratory
- Stearns, Tim
- Steinman, Lawrence
- Stevenson, David
- Stockdale, Frank
- Straight, Aaron
- Sweet-Cordero, Alejandro
- Wagner, Roger
- Walbot, Virginia
- Wandless, Thomas
- Wang, Ching
- Weis, Bill
- West, Robert
- Whitlock, James
- Winkleby, Marilyn
- Wu, Joseph
- Wyss-Coray, Tony
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 LIST YOUR LAB HERE
NEW LAB SITES
Featured Labs
 Andrew Fire: Studies the mechanisms by which cells and organisms respond to genetic change. 
 Harvey Cohen:
Cohen Lab research extends from hypothesis- driven studies in
biochemistry and cell biology to discovery-driven interests in
proteomics and systems biology to clinical treatment of acute
lymphoblastic leukemia of children.
 James Ford: The effects of the p53 and BRCA1 gene products on DNA repair and apoptosis - We are focused on identifying the molecular mechanisms that regulate DNA repair by these tumor suppressor genes, and how their deficiency impacts human cancer development.
 Matthew Scott: The Scott Lab: Genetic Regulation in Development and Disease - Matthew Scott is investigating genes that regulate embryonic development and cancer, including genes that turn other genes on and off and genes that code for components of signaling systems. Information about how these genes work during development is relevant to understanding the molecular basis for brain and skin cancer.
 Robert Robbins: The Cardiothoracic Transplantation Laboratory at Stanford Medical School was founded in the early 1960's by transplantation pioneer Dr. Norman E. Shumway to develop and refine the orthotopic cardiac transplant model. Innovative thinking, skillful application of surgical technique, as well as dedication and perseverance towards achieving difficult goals have been a trademark of this laboratory since its inception.
 Shoshana Levy: Our research is aimed at understanding the mechanism of action of tetraspanins. This is a multi-gene family, which has shown remarkable conservation over evolution and whose members are expressed in mammals, insects and nematodes. Tetraspanins are also widely expressed in most cell types, forming molecular associations with different proteins in the different cell types.
 Children's Surgical Research Lab: Located in a brand new research building on the Stanford University campus, the 14,000 sq. ft. Children's Surgical Research laboratory is fully equipped for cellular, molecular, and animal research.
Frank Stockdale: The focus of Dr. Stockdale's research is on understanding the cellular, biochemical, and molecular genetic mechanisms for regulation of diversification of cells during development. His recent research deals with the cellular and molecular mechanisms that specify the fates of diverse cell types in development.
 Branimir Sikic: Our goals are to understand mechanisms of drug resistance in cancer cells and to develop more effective therapies. Current research ranges from biochemical and molecular studies in cellular models to Phase I, II and III clinical trials of new inhibitors of multidrug resistance and antisense oligonucleotide DNA therapies.
 Dean Felsher: Our laboratory investigates how oncogenes initiate and sustain tumorigenesis. We have developed model systems whereby we can conditionally activate oncogenes in normal human and mouse cells in tissue culture or in specific tissues of transgenic mice.
 Ronald Levy: Lymphomas are the cancers of the immune system. They represent the uncontrolled growth of a clone of cells which, in each case, are all derived for one original lymphocyte. Therefore we can learn about the immune system by using these tumors as pure examples of different types of normal lymphocytes. And, conversely, we can use our knowledge about the normal immune system, and how it is regulated, to learn how to control the growth of this special type of cancer.
 Eric Sibley: Our research is directed towards defining the mechanisms regulating this spatial and temporal restriction of lactase gene expression during intestinal development. The overall goal is to relate these lactase control mechanisms to the broader pathways specifying acquisition of a small intestinal phenotype.
Rabinovitch/Bland: Dr. Rabinovitch research program. Our research focuses on the regulation of genes associated with vascular development and disease. We have shown that a novel smooth muscle cell elastase plays a pivotal role in the pathobiology of cardiovascular diseases including pulmonary hypertension, vein graft atherosclerosis, transplant arteriopathy and rejection, coronary artery disease, restenosis, myocardial ischemia and myocarditis.
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