Eric Jacobsen on synthetic methods for the selective, catalytic difluorination of organic molecules and new approaches for generating and controlling reactive cationic intermediates in asymmetric catalysis. A first-year graduate student in the management science and engineering. from Harvard University in 2016, where he worked with Prof. Evidently, because the d.school s innovation hothouse is changing the way people. His postdoctoral research developed approaches for targeted protein degradation from the extracellular space with lysosome targeting chimeras (LYTACs).
Prior to joining the faculty at Stanford, Steven was a NIH and Burroughs CASI postdoctoral fellow advised by Prof. Disclaimer: When you click submit, we will send an email on your behalf to Stanford Graduate School of Business from which you are requesting information. These concepts are applied to develop new therapeutic strategies for treating aging-related disorders, genetic diseases, and cancer. She graduated from Smith College with BA in Biology in 2017 and the University of Massachusetts, Amherst with Master of Public Policy in 2018. A particular focus is the study of biological mechanisms that can be coopted by synthetic molecules (both small molecules and proteins). candidate at the Stanford University School of Medicine. Projects broadly aim to perform new functions that shed light on regulatory machinery and the potential scope of mammalian biology. Projects in the Banik lab combine chemical biology, organic chemistry, protein engineering, cell and molecular biology to precisely manipulate the biological machines present in mammalian cells. Steven Banik’s research interests center on rewiring mammalian biology and chemical biotechnology development using molecular design and construction. Now in the Ashley Lab, Nate is highly interested in studying the biology of cardiomyopathies and how we can apply genome engineering techniques.