Bio-X


Showing 281-300 of 1,075 Results

  • Jeffrey A. Feinstein, MD, MPH

    Jeffrey A. Feinstein, MD, MPH

    Dunlevie Family Professor of Pulmonary Vascular Disease and Professor, by courtesy, of Bioengineering
    On Partial Leave from 02/22/2025 To 03/23/2025

    Current Research and Scholarly InterestsResearch interests include (1) computer simulation and modeling of cardiovascular physiology with specific attention paid to congenital heart disease and its treatment, (2) the evaluation and treatment of pulmonary hypertension/pulmonary vascular diseases, and (3) development and testing of medical devices/therapies for the treatment of congenital heart disease and pulmonary vascular diseases.

  • Jessica Feldman

    Jessica Feldman

    Associate Professor of Biology

    Current Research and Scholarly InterestsCell differentiation requires cells to polarize, translating developmental information into cell-type specific arrangements of intracellular structures. The major goal of the research in my laboratory is to understand how cells build these functional intracellular patterns during development, specifically focusing on the molecules and mechanisms that build microtubules at cell-type specific locations and the polarity cues that guide this patterning in epithelial cells.

  • Marcus Feldman

    Marcus Feldman

    Burnet C. and Mildred Finley Wohlford Professor

    Current Research and Scholarly InterestsHuman genetic and cultural evolution, mathematical biology, demography of China

  • Dean W. Felsher

    Dean W. Felsher

    Professor of Medicine (Oncology) and of Pathology

    Current Research and Scholarly InterestsMy laboratory studies the molecular basis of cancer with a focus on understanding when cancer can be reversed through targeted oncogene inactivation.

  • Stephen Felt, DVM, MPH

    Stephen Felt, DVM, MPH

    Professor of Comparative Medicine

    Current Research and Scholarly InterestsHis research interests include infectious diseases, particularly zoonoses, and exploring techniques which promote the health and welfare of laboratory animals.

  • Liang Feng

    Liang Feng

    Associate Professor of Molecular and Cellular Physiology

    Current Research and Scholarly InterestsWe are interested in the structure, dynamics and function of eukaryotic transport proteins mediating ions and major nutrients crossing the membrane, the kinetics and regulation of transport processes, the catalytic mechanism of membrane embedded enzymes and the development of small molecule modulators based on the structure and function of membrane proteins.

  • Russell D. Fernald

    Russell D. Fernald

    Benjamin Scott Crocker Professor of Human Biology, Emeritus

    Current Research and Scholarly InterestsIn the course of evolution,two of the strongest selective forces in nature,light and sex, have left their mark on living organisms. I am interested in how the development and function of the nervous system reflects these events. We use the reproductive system to understand how social behavior influences the main system of reproductive action controlled by a collection of cells in the brain containing gonodotropin releasing hormone(GnRH)

  • Katherine Ferrara

    Katherine Ferrara

    Professor of Radiology (Molecular Imaging Program at Stanford)

    Current Research and Scholarly InterestsMy focus is image-guided drug and gene delivery and I am engaged in the design of imaging devices, molecularly-targeted imaging probes and engineered delivery vehicles, drawing upon my education in biology and imaging physics and more than 20 years of experience with the synthesis and labeling of therapeutic particles. My laboratory has unique resources for and substantial experience in synthetic chemistry and ultrasound, CT, MR and PET imaging.

  • James Ferrell

    James Ferrell

    Professor of Chemical and Systems Biology and of Biochemistry

    Current Research and Scholarly InterestsMy lab has two main goals: to understand the regulation of mitosis and to understand the systems-level logic of simple signaling circuits. We often make use of Xenopus laevis oocytes, eggs, and cell-free extracts for both sorts of study. We also carry out single-cell fluorescence imaging studies on mammalian cell lines. Our experimental work is complemented by computational and theoretical studies aimed at understanding the design principles and recurring themes of regulatory circuits.

  • David Fiorentino, MD, PhD

    David Fiorentino, MD, PhD

    Professor of Dermatology

    Current Research and Scholarly InterestsI am interested in all types of immune-mediated skin disease, with a focus on psoriasis and rheumatic skin disease. I co-direct a multi-disciplinary clinic dedicated to the care of patients with rheumatic skin diseases, such as lupus erythematosus, vasculitis, dermatyositis and scleroderma. I conduct multiple clinical trials and I participate in translational research with tissues obtained from a prospective cohort of patients with scleroderma, lupus, and dermatomyositis.

  • Andrew Fire

    Andrew Fire

    George D. Smith Professor of Molecular and Genetic Medicine and Professor of Pathology and of Genetics

    Current Research and Scholarly InterestsWhile chromosomal inheritance provides cells with one means for keeping and transmitting genetic information, numerous other mechanisms have (and remain to be) discovered. We study novel cellular mechanisms that enforce genetic constancy and permit genetic change. Underlying our studies are questions of the diversity of inheritance mechanisms, how cells distinguish such mechanisms as "wanted" versus "unwanted", and of the consequences and applications of such mechanisms in health and disease.

  • Michael Fischbach

    Michael Fischbach

    Liu (Liao) Family Professor

    Current Research and Scholarly InterestsThe microbiome carries out extraordinary feats of biology: it produces hundreds of molecules, many of which impact host physiology; modulates immune function potently and specifically; self-organizes biogeographically; and exhibits profound stability in the face of perturbations. Our lab studies the mechanisms of microbiome-host interactions. Our approach is based on two technologies we recently developed: a complex (119-member) defined gut community that serves as an analytically manageable but biologically relevant system for experimentation, and new genetic systems for common species from the microbiome. Using these systems, we investigate mechanisms at the community level and the strain level.

    1) Community-level mechanisms. A typical gut microbiome consists of 200-250 bacterial species that span >6 orders of magnitude in relative abundance. As a system, these bacteria carry out extraordinary feats of metabolite consumption and production, elicit a variety of specific immune cell populations, self-organize geographically and metabolically, and exhibit profound resilience against a wide range of perturbations. Yet remarkably little is known about how the community functions as a system. We are exploring this by asking two broad questions: How do groups of organisms work together to influence immune function? What are the mechanisms that govern metabolism and ecology at the 100+ strain scale? Our goal is to learn rules that will enable us to design communities that solve specific therapeutic problems.

    2) Strain-level mechanisms. Even though gut and skin colonists live in communities, individual strains can have an extraordinary impact on host biology. We focus on two broad (and partially overlapping) categories:

    Immune modulation: Can we redirect colonist-specific T cells against an antigen of interest by expressing it on the surface of a bacterium? How do skin colonists induce high levels of Staphylococcus-specific antibodies in mice and humans?

    Abundant microbiome-derived molecules: By constructing single-strain/single-gene knockouts in a complex defined community, we will ask: What are the effects of bacterially produced molecules on host metabolism and immunology? Can the molecular output of low-abundance organisms impact host physiology?

    3) Cell and gene therapy. We have begun two new efforts in mammalian cell and gene therapies. First, we are developing methods that enable cell-type specific delivery of genome editing payloads in vivo. We are especially interested in delivery vehicles that are customizable and easy to manufacture. Second, we have begun a comprehensive genome mining effort with an emphasis on understudied or entirely novel enzyme systems with utility in mammalian genome editing.

  • Daniel Fisher

    Daniel Fisher

    Marjorie Mhoon Fair Professor

    Current Research and Scholarly InterestsEvolutionary & ecological dynamics & diversity, microbial, expt'l, & cancer

  • Dominik Fleischmann

    Dominik Fleischmann

    Professor of Radiology (Cardiovascular Imaging)

    Current Research and Scholarly InterestsNon-invasive Cardiovascular Imaging
    Image Post-processing
    Contrast Medium Dynamics

  • Sean Follmer

    Sean Follmer

    Associate Professor of Mechanical Engineering and, by courtesy, of Computer Science
    On Partial Leave from 10/01/2024 To 06/30/2025

    Current Research and Scholarly InterestsHuman Computer Interaction, Haptics, Robotics, Human Centered Design

  • James Ford

    James Ford

    Professor of Medicine (Oncology) and of Genetics and, by courtesy, of Pediatrics
    On Partial Leave from 01/01/2025 To 01/01/2026

    Current Research and Scholarly InterestsMammalian DNA repair and DNA damage inducible responses; p53 tumor suppressor gene; transcription in nucleotide excision repair and mutagenesis; genetic determinants of cancer cell sensitivity to DNA damage; genetics of inherited cancer susceptibility syndromes and human GI malignancies; clinical cancer genetics of BRCA1 and BRCA2 breast cancer and mismatch repair deficient colon cancer.

  • Polly Fordyce

    Polly Fordyce

    Associate Professor of Bioengineering and of Genetics

    Current Research and Scholarly InterestsThe Fordyce Lab is focused on developing new instrumentation and assays for making quantitative, systems-scale biophysical measurements of molecular interactions. Current research in the lab is focused on three main platforms: (1) arrays of valved reaction chambers for high-throughput protein expression and characterization, (2) spectrally encoded beads for multiplexed bioassays, and (3) sortable droplets and microwells for single-cell assays.

  • Michael B. Fowler, MBBS, FRCP

    Michael B. Fowler, MBBS, FRCP

    Professor of Medicine (Cardiovascular), Emeritus

    Current Research and Scholarly InterestsAdrenergic nervous system; beta-adrenergic function in, heart failure; drugs in heart failure.

  • Emily Fox

    Emily Fox

    Professor of Statistics and of Computer Science
    On Partial Leave from 10/01/2024 To 06/30/2025

    BioEmily Fox is a Professor in the Departments of Statistics and Computer Science at Stanford University. Prior to Stanford, she was the Amazon Professor of Machine Learning in the Paul G. Allen School of Computer Science & Engineering and Department of Statistics at the University of Washington. From 2018-2021, Emily led the Health AI team at Apple, where she was a Distinguished Engineer. Before joining UW, Emily was an Assistant Professor at the Wharton School Department of Statistics at the University of Pennsylvania. She earned her doctorate from Electrical Engineering and Computer Science (EECS) at MIT where her thesis was recognized with EECS' Jin-Au Kong Outstanding Doctoral Thesis Prize and the Leonard J. Savage Award for Best Thesis in Applied Methodology.

    Emily has been awarded a CZ Biohub Investigator Award, Presidential Early Career Award for Scientists and Engineers (PECASE), a Sloan Research Fellowship, ONR Young Investigator Award, and NSF CAREER Award. Her research interests are in modeling complex time series arising in health, particularly from health wearables and neuroimaging modalities.