Stanford Bio-X is now accepting Letters of Intent for the 10th Round of the Stanford Bio-X Interdisciplinary Initiatives Seed Grants Program!
Letters of Intent must be received by March 16, 2020 at 5:00 pm PST.
HARRIS WANG, COLUMBIA UNIVERSITY
The Wang lab applies synthetic and systems biology approaches to design and build new microbes with novel capabilities, leveraging both engineering and evolutionary principles. They are interested in developing platform technologies and using them to answer fundamental biological questions. Their research interests include: genome engineering; human microbiome; synthetic ecosystems; evolution and epistasis; and new genetic codes.
The neuronal heterogeneity and complex connections of the brain reward system prevented a deeper understanding of the drug addiction mechanisms. The study Dr. Zhang will present provides a broadly applicable strategy for understanding the molecular, cellular and circuitry mechanism of drug addiction and other psychiatric diseases.
XIAOKE CHEN, DEPARTMENT OF BIOLOGY
Attend Dr. Chen's pre-seminar presentation to learn more about Dr. Yi Zhang's seminar, "Understanding drug addiction by classification and characterization of cell types of the brain reward system", to be held Thursday, March 5th.
SOPHIE HELAINE, HARVARD UNIVERSITY
Salmonella is the causative agent of various diseases, ranging from gastro-enteritis to typhoid fever. We have recently discovered that upon infection of host cells, there is a dramatic increase in the proportion of the Salmonella population that forms persisters. A family of genes, named Toxin/Antitoxin modules, is known to be involved in the formation of persisters in a non-pathogenic bacterial species, but almost nothing is known about these genes in pathogenic bacteria like Salmonella. The Helaine lab investigates their function, particularly in relation to persistence of Salmonellato antibiotics during infection. Understanding mechanisms of action of such genes could provide ways to prevent bacteria from becoming persisters, or force them out of that state so they become re-sensitised to antibiotics.
JOIN US FOR A STANFORD BIO-X POSTER SESSION!
The Stanford Bio-X Leadership Council is pleased to announce the 17th annual competition for Stanford Bio-X Graduate Student Fellowships and for the Wu Tsai Neurosciences Institute and Stanford ChEM-H Fellowships.
Complete applications must be received by February 24, 2020 at 5:00 pm PST.
Dr. Kenneth Yamada's group's overall research goals are to discover novel mechanisms and regulators of cell interactions with the extracellular matrix and their roles in craniofacial development and disease pathogenesis. The mechanobiology underlying cell migration, spatially regulated deposition of matrix, and sculpting of initially unorganized cells into complex branched organs are being characterized and experimentally manipulated using mouse embryonic organ culture and 3D human cell and spheroid models. These studies provide unexpected new insights into the dynamic forces and specific molecules involved in 3D cell migration and the remodeling of epithelial cells into 3D embryonic tissue architecture.
ANNA-KATERINA HADJANTONAKIS, MEMORIAL SLOAN KETTERING CANCER CENTER
Cancer is a condition promoted by cells undergoing an identity crisis. An understanding of how cells control their identity (cell fate specification), and how they organize themselves into normal tissues (morphogenesis) provides the blueprint for the fundamental biological processes that become deregulated in cancer. The Hadjantonakis laboratory uses high-resolution quantitative methods to investigate the mechanisms underlying stem cell specification, cellular differentiation, tissue organization and growth. They use the mammalian embryo as a platform, and the mouse as a primary model system. They also exploit in vitro cultured stem cells, including pluripotent stem cells, for their studies.
OVIJIT CHAUDHURI, DEPARTMENT OF MECHANICAL ENGINEERING
Attend Dr. Chaudhuri's pre-seminar presentation to learn more about Dr. Kenneth Yamada's seminar, "Dynamics of 3D Cell Migration and Organogenesis", to be held Thursday, February 20th.
