{"result":[{"lastName":"Chen","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Chemical and Systems Biology"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Member,Bio-X"},{"appointment":"Associate Professor,Developmental Biology"},{"appointment":"Associate Professor (By courtesy),Natural Sciences Cluster - Chemistry Department"}],"primaryAppointment":"Associate Professor,Chemical and Systems Biology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=3938&type=small&showNoImage","displayName":"James K. Chen","firstName":"James","href":"http://med.stanford.edu/profiles/James_Chen","researchInterest":"Our laboratory combines synthetic chemistry and developmental biology to investigate the molecular events that regulate embryonic patterning, tissue regeneration, and tumorigenesis.  We are currently using genetic and small-molecule approaches to study the molecular mechanisms of Hedgehog signaling, and we are developing chemical technologies to perturb and observe the genetic programs that underlie vertebrate development."},{"lastName":"Krasnow","clinicalFocus":[],"appointments":[{"appointment":"Professor,Biochemistry"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Professor,Biochemistry","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4120&type=small&showNoImage","displayName":"Mark Krasnow","firstName":"Mark","href":"http://med.stanford.edu/profiles/Mark_Krasnow","researchInterest":"-  Lung development and stem cells\r\n-  Neural control of breathing\r\n-  Lung diseases including lung cancer\r\n-  New genetic model organisms for medicine"},{"lastName":"Hu","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Obstetrics & Gynecology"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Associate Professor,Obstetrics & Gynecology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=10405&type=small&showNoImage","displayName":"Mickey Hu","firstName":"Mickey","href":"http://med.stanford.edu/profiles/Mickey_Hu","researchInterest":""},{"lastName":"Rothenberg","clinicalFocus":[{"focus":"Gastroenterology"}],"appointments":[{"appointment":"Clinical Instructor,Medicine - Gastroenterology & Hepatology"},{"appointment":"Postdoctoral Research fellow, Medicine"}],"primaryAppointment":"Clinical Instructor,Medicine - Gastroenterology & Hepatology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=10397&type=small&showNoImage","displayName":"Michael Rothenberg","firstName":"Michael","href":"http://med.stanford.edu/profiles/Michael_Rothenberg","researchInterest":""},{"lastName":"Samos","clinicalFocus":[],"appointments":[{"appointment":"Science Writer/Editor,Neurosurgery"},{"appointment":"Information Editor,Neurosurgery"}],"primaryAppointment":"Science Writer/Editor,Neurosurgery","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=28093&type=small&showNoImage","displayName":"Cynthia Samos","firstName":"Cynthia","href":"http://med.stanford.edu/profiles/Cynthia_Samos","researchInterest":""},{"lastName":"Rohatgi","clinicalFocus":[{"focus":"Medical Oncology"}],"appointments":[{"appointment":"Assistant Professor,Medicine - Oncology"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Assistant Professor (By courtesy),Biochemistry"}],"primaryAppointment":"Assistant Professor,Medicine - Oncology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=10885&type=small&showNoImage","displayName":"Rajat Rohatgi","firstName":"Rajat","href":"http://med.stanford.edu/profiles/Rajat_Rohatgi","researchInterest":"We are working to elucidate the biochemical and cell biological principles that govern signaling pathways that sit at the intersection between developmental biology and cancer.  Our toolkit combines bulk biochemical techniques, such as cell-free reconstitution, with microscopy using novel optical probes to study the dynamics of signal propagation in cells.  We strive to develop novel strategies for the manipulation of these pathways for cancer therapies and applications in regenerative medicine."},{"lastName":"Baker","clinicalFocus":[],"appointments":[{"appointment":"Professor Emeritus,Biology (School of Humanities and Sciences)"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor Emeritus,Biology (School of Humanities and Sciences)","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6206&type=small&showNoImage","displayName":"Bruce Baker","firstName":"Bruce","href":"http://med.stanford.edu/profiles/Bruce_Baker","researchInterest":""},{"lastName":"Lu","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Pathology"}],"primaryAppointment":"Associate Professor,Pathology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=3976&type=small&showNoImage","displayName":"Bingwei Lu","firstName":"Bingwei","href":"http://med.stanford.edu/profiles/Bingwei_Lu","researchInterest":"We are interested in understanding how neural stem cells balance their self-renewal and differentiation and how deregulation of this process can result in brain tumor. We are also interested in mechanisms of neurodegeneration in Alzheimer\u0092s and Parkinson\u0092s diseases. We are using both Drosophila and mammalian models to address these fundamental questions."},{"lastName":"Giaccia","clinicalFocus":[],"appointments":[{"appointment":"Professor,Radiation Oncology - Radiation and Cancer Biology"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Professor (By courtesy),Obstetrics & Gynecology"},{"appointment":"Professor (By courtesy),Surgery"}],"primaryAppointment":"Professor,Radiation Oncology - Radiation and Cancer Biology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4141&type=small&showNoImage","displayName":"Amato J. Giaccia","firstName":"Amato","href":"http://med.stanford.edu/profiles/Amato_Giaccia","researchInterest":"During the last five years, we have identified several small molecules that kill VHL deficient renal cancer cells through a synthetic lethal screening approach. Another major interest of my laboratory is in identifying hypoxia-induced genes involved in invasion and metastases. We are also investigating how hypoxia regulates gene expression epigenetically."},{"lastName":"Meyer","clinicalFocus":[],"appointments":[{"appointment":"Professor,Chemical and Systems Biology"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor,Chemical and Systems Biology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4007&type=small&showNoImage","displayName":"Tobias Meyer","firstName":"Tobias","href":"http://med.stanford.edu/profiles/Tobias_Meyer","researchInterest":"CELLULAR INFORMATION PROCESSING  The main problem in signal transduction is to understand how different receptor-stimuli specifically control diverse cell functions. We are using automated microscopy, live-cell fluorescent biosensors and perturbations of predicted signaling proteins to systematically dissect signaling networks.  This allows us to identify signaling modules and to elucidate and ultimately model the flow of cellular information."},{"lastName":"Harel","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Genetics"}],"primaryAppointment":"Postdoctoral Research fellow, Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=37895&type=small&showNoImage","displayName":"Itamar Harel","firstName":"Itamar","href":"http://med.stanford.edu/profiles/Itamar_Harel","researchInterest":"The overarching goal of the Brunet lab is to understand the genetic mechanisms of aging and longevity. Aging is a highly plastic process regulated by a combination of genetic and environmental factors. \r\n\r\nI am interested in the basic molecular components that characterize \u0093young\u0094 and \u0093aged\u0094 cellular states. Aging is associated with an increased onset of cancer, and I seeks to define the set of factors that can rejuvenate an aged cell, without the risk of malignant transformation. Ultimately, w"},{"lastName":"Nusse","clinicalFocus":[],"appointments":[{"appointment":"Professor,Developmental Biology"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Professor,Developmental Biology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4280&type=small&showNoImage","displayName":"Roeland Nusse","firstName":"Roeland","href":"http://med.stanford.edu/profiles/Roeland_Nusse","researchInterest":"Our laboratory studies Wnt signaling in development and disease. We found recently that Wnt proteins are unusual growth factors, because they are lipid-modified. We discovered that Wnt proteins promote the proliferation of stem cells of various origins. Current work is directed at understanding the function of the lipid on the Wnt,  using Wnt proteins as factors the expand stem cells and on understanding Wnt signaling during repair and regeneration after tissue injury."},{"lastName":"Okada","clinicalFocus":[],"appointments":[{"appointment":"Instructor,Neurology & Neurological Sciences"}],"primaryAppointment":"Instructor,Neurology & Neurological Sciences","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=8191&type=small&showNoImage","displayName":"Ami Okada","firstName":"Ami","href":"http://med.stanford.edu/profiles/Ami_Okada","researchInterest":"Our interests are to understand the mechanism and control of signals that regulate proliferation and differentiation in adult tissue.  We are currently focused on studying modulation of the Hedgehog pathway in brain and muscle stem cell compartments during normal homeostasis and in degeneration or disease."},{"lastName":"Ruiz-Lozano","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor (Research),Pediatrics - Cardiology"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Child Health Research Institute"}],"primaryAppointment":"Associate Professor (Research),Pediatrics - Cardiology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=18359&type=small&showNoImage","displayName":"Pilar Ruiz-Lozano, Ph.D.","firstName":"Pilar","href":"http://med.stanford.edu/profiles/Pilar_Ruiz-Lozano","researchInterest":"Cardiac development and repair"},{"lastName":"Sun","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Urology"},{"appointment":"Member,Bio-X"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Associate Professor,Genetics"}],"primaryAppointment":"Associate Professor,Urology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4402&type=small&showNoImage","displayName":"Zijie Sun","firstName":"Zijie","href":"http://med.stanford.edu/profiles/Zijie_Sun","researchInterest":"My lab focuses on understanding the molecular mechanism of transcription factors that govern the transformation of normal mammalian cells to a neoplastic state. We are especially interested in the action of the nuclear hormone receptors and the interactions between the receptors and other signaling pathways in related human disorders."},{"lastName":"Yang","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Stem Cell"}],"primaryAppointment":"Postdoctoral Research fellow, Stem Cell","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=18228&type=small&showNoImage","displayName":"Nan Yang","firstName":"Nan","href":"http://med.stanford.edu/profiles/Nan_Yang","researchInterest":""},{"lastName":"Jackson","clinicalFocus":[],"appointments":[{"appointment":"Member,Bio-X"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Member,Bio-X","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4463&type=small&showNoImage","displayName":"Peter Jackson","firstName":"Peter","href":"http://med.stanford.edu/profiles/Peter_Jackson","researchInterest":"Cell cycle and cyclin control of DNA replication ."},{"lastName":"Mourrain","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor (Research),Psychiatry & Behavioral Science - Sleep Center"}],"primaryAppointment":"Associate Professor (Research),Psychiatry & Behavioral Science - Sleep Center","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=24313&type=small&showNoImage","displayName":"Philippe Mourrain","firstName":"Philippe","href":"http://med.stanford.edu/profiles/Philippe_Mourrain","researchInterest":""},{"lastName":"Kuo","clinicalFocus":[{"focus":"Medical Oncology"}],"appointments":[{"appointment":"Professor,Medicine - Hematology"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Member,Bio-X"},{"appointment":"Professor (By courtesy),Chemical and Systems Biology"}],"primaryAppointment":"Professor,Medicine - Hematology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=5906&type=small&showNoImage","displayName":"Calvin Kuo","firstName":"Calvin","href":"http://med.stanford.edu/profiles/Calvin_Kuo","researchInterest":"We explore angiogenesis, cancer genomics, intestinal stem cells, and hepatic glucose metabolism.  Angiogenesis projects include endothelial miRNA and GPCR ko mice, blood-brain barrier regulation, stroke therapeutics and anti-angiogenic cancer therapy.  Intestinal stem cell projects use primary intestinal culture and mouse genetics to study injury-inducible vs homeostatic stem cells.  We use primary organoid cultures of diverse tissues for oncogene functional screening and therapeutics discovery."},{"lastName":"Luo","clinicalFocus":[],"appointments":[{"appointment":"Professor,Biology (School of Humanities and Sciences)"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor,Biology (School of Humanities and Sciences)","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6229&type=small&showNoImage","displayName":"Liqun Luo","firstName":"Liqun","href":"http://med.stanford.edu/profiles/Liqun_Luo","researchInterest":"We are studying how neural circuits are assembled during development, and how they contribute to sensory perception.  We are addressing these questions at different levels from molecular, cellular, circuit to animal behavior.  We are primarily using Drosophila as a model organism for our studies.  Most recently, we are also developing novel genetic tools in the mouse to extend our studies to the mammalian brain."},{"lastName":"Stockdale","clinicalFocus":[{"focus":"Breast Cancer - Medical Oncology"},{"focus":"Oncology"},{"focus":"Newly Diagnosed Breast Cancer"},{"focus":"Metastatic Breast Cancer"},{"focus":"Inflammatory Breast Cancer"},{"focus":"Locally Advanced Breast Cancer"},{"focus":"Chemotherapy, Adjuvant"},{"focus":"Ductal Carcinoma In Situ"},{"focus":"Phyllodes Tumor"}],"appointments":[{"appointment":"Professor Emeritus,Medicine - Oncology"},{"appointment":"Emeritus Faculty, Acad Council,Medicine - Oncology"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Professor Emeritus,Medicine - Oncology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4528&type=small&showNoImage","displayName":"Frank E. Stockdale","firstName":"Frank","href":"http://med.stanford.edu/profiles/Frank_Stockdale","researchInterest":"Laboratory and clinical research in breast cancer ; Normal and abornal differentiation and growth"},{"lastName":"Cho","clinicalFocus":[{"focus":"Neurology - Child Neurology"},{"focus":"Neuro-oncology"}],"appointments":[{"appointment":"Assistant Professor - Med Center Line,Neurology & Neurological Sciences"},{"appointment":"Member,Child Health Research Institute"}],"primaryAppointment":"Assistant Professor - Med Center Line,Neurology & Neurological Sciences","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=24609&type=small&showNoImage","displayName":"Yoon-Jae Cho","firstName":"Yoon-Jae","href":"http://med.stanford.edu/profiles/Yoon-Jae_Cho","researchInterest":"My laboratory studies childhood brain tumors with a particular focus on medulloblastoma, the most common malignant brain tumor in children. We utilize both top-down and bottom-up strategies to understand the biology of these tumors and identify new therapeutic avenues to more effectively treat these diseases."}]}