School of Medicine

Showing 1-6 of 6 Results

  • Jan Skotheim

    Jan Skotheim

    Associate Professor of Biology and, by courtesy, of Chemical and Systems Biology

    Current Research and Scholarly Interests A central aim of the burgeoning field of systems biology is to understand the principles governing genetic control networks. I believe finding the principles underlying genetic circuits will occur through detailed studies and then comparisons of several natural systems. Due to its extensive development as an experimental system, our favorite model, the budding yeast cell cycle, is poised to become central to this enterprise.

  • David Solow-Cordero

    David Solow-Cordero

    Director, HTBC, Chemical and Systems Biology Operations

    Current Role at Stanford Director, High-Throughput Bioscience Center

    The High-Throughput Bioscience Center's mission is to provide researchers at Stanford with the ability to run high-throughput chemical, siRNA, cDNA, and high-content screens for the purpose of drug and/or target discovery. The HTBC is a Stanford University School of Medicine core facility and was created in 2003 by the Department of Chemical and Systems Biology (formerly Molecular Pharmacology). The HTBC is a shared resource (Bioscience Screening Facility) for the Stanford Cancer Institute (more info), the Digestive Disease Center (Chemical Genomics Core), and the NIH Clinical and Translational Science Award (Spectrum).

    Research approaches that were previously done exclusively in industry are now being used in academia to advance basic research. This high-throughput screening (HTS) laboratory allows Stanford researchers and others to discover novel modulators of targets that otherwise would not be practical in industry. The center incorporates instrumentation (purchased with NCRR NIH Instrumentation grant numbers S10RR019513 and S10RR026338), databases, compound libraries, and personnel whose previous sole domains were in industry. Among our instrumentation are a Molecular Devices ImageXpress Micro High-Content fluorescence microplate imager, with live cell and phase contrast/brightfield options, a Caliper Life Sciences SciClone ALH3000 and an Agilent Bravo microplate liquid handler, and the Molecular Devices Analyst GT and FlexStation II 384 and Tecan Infinite M1000 PRO fluorescence, luminescence and absorbance multimode microplate readers. We have over 135,000 small molecules for compound screens, 15,000 cDNAs for genomic screens, and the siARRAY whole human genome siRNA library from ThermoFisher Scientific (formerly Dharmacon) targeting 21,000 genes.

    The HTBC is located in CCSR Room 0133-North Wing, between the Transgenic Mouse Facility, the Immune Monitoring Core, and the Stanford Functional Genomics Facility.

  • Aaron Straight

    Aaron Straight

    Associate Professor of Biochemistry and, by courtesy, of Chemical and Systems Biology

    Current Research and Scholarly Interests We study the biology of chromosomes. Our research is focused on understanding how chromosomal domains are specialized for unique functions in chromosome segregation, cell division and cell differentiation. We are particularly interested in the genetic and epigenetic processes that govern vertebrate centromere function, in the organization of the genome in the eukaryotic nucleus and in the roles of RNAs in the regulation of chromosome structure.

  • Kavya Swaminathan

    Kavya Swaminathan

    Postdoctoral Research Fellow, Chemical and Systems Biology

    Bio Kavya received her Ph.D. from the University of Sydney in Australia. During her PhD, she developed and applied mass spectrometry-based approaches to study antiviral binding to influenza virus antigens and monitor the emergence of antiviral resistance. She joined the Elias lab to explore the host immune responses to viral infections.

    Her current research focuses on identifying viral and host antigens that are differentially presented upon infection both in vitro and in vivo, in the context of the dynamic proteome. These studies will enable identifying immunologically relevant targets for the design of efficacious vaccines and therapeutics against a range of devastating infectious diseases such as Dengue, TB, Malaria, and Zika.

Footer Links:

Stanford Medicine Resources: