{"result":[{"lastName":"Mallick","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor (Research),Radiology - Diagnostic Radiology"}],"primaryAppointment":"Assistant Professor (Research),Radiology - Diagnostic Radiology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=18938&type=small&showNoImage","displayName":"Parag Mallick","firstName":"Parag","href":"http://med.stanford.edu/profiles/Parag_Mallick","researchInterest":"Our research centers on developing and applying  proteomics and systems biology approaches to quantitatively describe organisms' physiologic states towards the goal of enabling personalized, predictive medicine.  As part of this effort we are trying to characterize the diverse states of cells (using proteomic and transcriptomic methods) and how signals describing those states are propagated from molecular and cellular length scales to tumor and organismic length scales."},{"lastName":"Pitteri","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor (Research),Radiology - Diagnostic Radiology"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Assistant Professor (Research),Radiology - Diagnostic Radiology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=18937&type=small&showNoImage","displayName":"Sharon Pitteri","firstName":"Sharon","href":"http://med.stanford.edu/profiles/Sharon_Pitteri","researchInterest":"The Pitteri laboratory is focused on the discovery and validation of proteins that can be used as molecular indicators of risk, diagnosis, progression, and recurrence of cancer.  Proteomic technologies, predominantly mass spectrometry, are used to identify proteins in the blood that are differentially regulated and/or post-translationally modified with disease state.  Using human plasma samples, tumor tissue, cancer cell lines, and genetically engineered mouse models, the origins of these prote"},{"lastName":"Snyder","clinicalFocus":[],"appointments":[{"appointment":"Professor,Genetics"},{"appointment":"Member,Stanford Cancer Institute"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor,Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=13465&type=small&showNoImage","displayName":"Michael Snyder","firstName":"Michael","href":"http://med.stanford.edu/profiles/Michael_Snyder","researchInterest":"We are presently in an omics revolution in which genomes and other omes can be readily characterized. Our laboratory uses a variety of approaches to analyze genomes and regulatory networks. Our research focuses on yeast, an ideal model organism ideally suited to genetic analysis, and humans.\r\n\r\n1) Transcriptomes\r\nTo annotate genomes, we developed RNA sequencing for annotation the yeast and human transcriptomes. We discovered that the eukaryotic transcriptome is much more complex than previously"},{"lastName":"Gherardini","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Microbiology & Immunology"}],"primaryAppointment":"Postdoctoral Research fellow, Microbiology & Immunology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=35679&type=small&showNoImage","displayName":"Pier Federico Gherardini","firstName":"Pier Federico","href":"http://med.stanford.edu/profiles/Pier Federico_Gherardini","researchInterest":""},{"lastName":"Haimovich","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Biochemistry"}],"primaryAppointment":"Postdoctoral Research fellow, Biochemistry","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=21024&type=small&showNoImage","displayName":"Ariel Haimovich","firstName":"Ariel","href":"http://med.stanford.edu/profiles/Ariel_Haimovich","researchInterest":""},{"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":"Coram","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor,Health Research & Policy - Biostatistics"}],"primaryAppointment":"Assistant Professor,Health Research & Policy - Biostatistics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=7950&type=small&showNoImage","displayName":"Marc Coram","firstName":"Marc","href":"http://med.stanford.edu/profiles/Marc_Coram","researchInterest":"My research develops theory and methodology to perform statistical inference about the latent structure of complex systems. I am collaborating with individuals in the Cancer Center on data from phospho flow cytometry and protein arrays."},{"lastName":"Neveu","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Medicine"}],"primaryAppointment":"Postdoctoral Research fellow, Medicine","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=20928&type=small&showNoImage","displayName":"Gregory Neveu","firstName":"Gregory","href":"http://med.stanford.edu/profiles/Gregory_Neveu","researchInterest":""},{"lastName":"Li","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Genetics"}],"primaryAppointment":"Postdoctoral Research fellow, Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=23896&type=small&showNoImage","displayName":"Jingjing Li","firstName":"Jingjing","href":"http://med.stanford.edu/profiles/Jingjing_Li","researchInterest":""},{"lastName":"Shah","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor,Medicine - Biomedical Informatics Research"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Assistant Professor,Medicine - Biomedical Informatics Research","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=19142&type=small&showNoImage","displayName":"Nigam H. Shah, MBBS, PhD","firstName":"Nigam","href":"http://med.stanford.edu/profiles/Nigam_Shah","researchInterest":"My research group studies ontology-based approaches to annotate, index, integrate and analyze unstructured information available in biomedicine for the purpose of enabling data-driven analytics in medicine and health care."},{"lastName":"Cyert","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=6213&type=small&showNoImage","displayName":"Martha Cyert","firstName":"Martha","href":"http://med.stanford.edu/profiles/Martha_Cyert","researchInterest":"Cells respond to extracellular changes by activating signal transduction pathways, many of which are highly conserved. We study Ca2+-mediated signaling in a simple eukaryote, Saccharomyces cerevisiae. Using genetic, genomic, biochemical and cell biological approaches, we are examining how the Ca2+/calmodulin-regulated phosphatase, calcineurin, regulates gene expression and other cellular processes in response to environmental stress."},{"lastName":"Pan","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Genetics"}],"primaryAppointment":"Postdoctoral Research fellow, Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=20307&type=small&showNoImage","displayName":"Cuiping Pan","firstName":"Cuiping","href":"http://med.stanford.edu/profiles/Cuiping_Pan","researchInterest":""},{"lastName":"Collins","clinicalFocus":[],"appointments":[{"appointment":"Postdoctoral Research fellow, Chemical and Systems Biology"}],"primaryAppointment":"Postdoctoral Research fellow, Chemical and Systems Biology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=10605&type=small&showNoImage","displayName":"Sean Collins","firstName":"Sean","href":"http://med.stanford.edu/profiles/Sean_Collins","researchInterest":""},{"lastName":"Fraser","clinicalFocus":[],"appointments":[{"appointment":"Assistant Professor,Biology (School of Humanities and Sciences)"},{"appointment":"Member,Child Health Research Institute"},{"appointment":"Member,Stanford Cancer Institute"}],"primaryAppointment":"Assistant Professor,Biology (School of Humanities and Sciences)","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=15112&type=small&showNoImage","displayName":"Hunter Fraser","firstName":"Hunter","href":"http://med.stanford.edu/profiles/Hunter_Fraser","researchInterest":""},{"lastName":"Berg","clinicalFocus":[],"appointments":[{"appointment":"Emeritus Faculty, Acad Council,Biochemistry"},{"appointment":"Professor Emeritus,SoM Dean's Office Administrative Units - Dean's Office Operations"},{"appointment":"Professor Emeritus,Biochemistry"}],"primaryAppointment":"Emeritus Faculty, Acad Council,Biochemistry","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=6263&type=small&showNoImage","displayName":"Paul Berg","firstName":"Paul","href":"http://med.stanford.edu/profiles/Paul_Berg","researchInterest":"For about 10 years until 2000, my lab's research activities were focused on the mechanism of recombinational repair of double-strand breaks in DNA. We focused our efforts on two model systems:  one involved the repair of restriction enzyme cleavages at specific mammalian chromosomal loci and the second explored the biochemical properties of purified yeast Rad51 protein, an essential catalyst for synapsing the broken ends of DNA with an intact homologue of that sequence.  We also explored the ro"},{"lastName":"Gitler","clinicalFocus":[],"appointments":[{"appointment":"Associate Professor,Genetics"}],"primaryAppointment":"Associate Professor,Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=29296&type=small&showNoImage","displayName":"Aaron D. Gitler","firstName":"Aaron","href":"http://med.stanford.edu/profiles/Aaron_Gitler","researchInterest":"We investigate the mechanisms of human neurodegenerative diseases, including Alzheimer disease, Parkinson disease, and ALS. We don't limit ourselves to one model system or experimental approach. We start with yeast, perform genetic and chemical screens, and then move to other model systems (e.g. mammalian tissue culture, mouse, fly) and even work with human patient samples (tissue sections, patient-derived cells, including iPS cells) and next generation sequencing approaches."},{"lastName":"Pringle","clinicalFocus":[],"appointments":[{"appointment":"Professor,Genetics"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor,Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=7022&type=small&showNoImage","displayName":"John R. Pringle","firstName":"John","href":"http://med.stanford.edu/profiles/John_Pringle","researchInterest":"Much of our research exploits the power of yeast as an experimentally tractable model eukaryote to investigate fundamental problems in cell and developmental biology such as the mechanisms of cell polarization and cytokinesis.  In another project, we are developing the small sea anemone Aiptasia as a model system for study of the molecular and cellular biology of dinoflagellate-cnidarian symbiosis, which is critical for the survival of most corals but still very poorly understood."},{"lastName":"Cherry","clinicalFocus":[],"appointments":[{"appointment":"Professor (Research),Genetics"},{"appointment":"Member,Bio-X"}],"primaryAppointment":"Professor (Research),Genetics","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=4249&type=small&showNoImage","displayName":"Mike Cherry","firstName":"J. Michael","href":"http://med.stanford.edu/profiles/J. Michael_Cherry","researchInterest":"My research involves identifying, validating and integrating scientific facts into encyclopedic databases essential for research and scientific education.  Published results of scientific experimentation are a foundation of our understanding of the natural world and provide motivation for new experiments.  The combination of in-depth understanding reported in the literature with computational analyses is an essential ingredient of modern biological research."},{"lastName":"Chung","clinicalFocus":[],"appointments":[{"appointment":"Basic Life Science Research Associate,Obstetrics & Gynecology"}],"primaryAppointment":"Basic Life Science Research Associate,Obstetrics & Gynecology","imageUrl":"http://med.stanford.edu/profiles/viewImage?facultyId=10387&type=small&showNoImage","displayName":"Young Min Chung","firstName":"Young Min","href":"http://med.stanford.edu/profiles/Young Min_Chung","researchInterest":""}]}