Sarah L. Keller
Affiliations: | 2000- | Chemistry | University of Washington, Seattle, Seattle, WA |
Area:
lipid membrane biophysicsWebsite:
http://depts.washington.edu/chem/people/faculty/keller.htmlGoogle:
"Sarah L. Keller"Bio:
https://scholar.google.com/citations?user=8V40990AAAAJ&hl=en
http://faculty.washington.edu/slkeller/
http://www.washington.edu/news/2012/11/29/aaas-names-11-uw-researchers-as-fellows/
http://faculty.washington.edu/slkeller/Keller%20CV%20Sept2014.pdf
Mean distance: 7.84 | S | N | B | C | P |
Parents
Sign in to add mentor| Sol M. Gruner | grad student | 1995 | Princeton (Physics Tree) | |
| (Interaction between Ion-channels and Lipid Membranes) | ||||
| Joseph A. Zasadzinski | post-doc | 1995-1997 | UC Santa Barbara | |
| Harden M. McConnell | post-doc | 1997-2000 | Stanford | |
Children
Sign in to add trainee| Catherine Chang | research assistant | 2016-2018 | University of Washington (Neurotree) |
| Sarah L. Veatch | grad student | 2004 | University of Washington |
| Aurelia R. Honerkamp-Smith | grad student | 2010 | University of Washington |
| Cynthia A. Stanich | grad student | 2012 | University of Washington |
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Wilson KJ, Nguyen HQ, Gervay-Hague J, et al. (2024) Sterol-lipids enable large-scale, liquid-liquid phase separation in membranes of only 2 components. Biorxiv : the Preprint Server For Biology |
| Reinhard J, Leveille CL, Cornell CE, et al. (2023) Remodeling of yeast vacuole membrane lipidomes from the log (1-phase) to stationary stage (2-phases). Biophysical Journal |
| Leveille CL, Cornell CE, Merz AJ, et al. (2022) Yeast cells actively tune their membranes to phase separate at temperatures that scale with growth temperatures. Proceedings of the National Academy of Sciences of the United States of America. 119 |
| Bergeron-Sandoval LP, Kumar S, Heris HK, et al. (2021) Endocytic proteins with prion-like domains form viscoelastic condensates that enable membrane remodeling. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Cornell CE, Mileant A, Thakkar N, et al. (2020) Direct imaging of liquid domains in membranes by cryo-electron tomography. Proceedings of the National Academy of Sciences of the United States of America |
| Xue M, Black R, Cornell CE, et al. (2020) A Step Toward Molecular Evolution of RNA: Ribose Binds to Prebiotic Fatty Acid Membranes, and Nucleosides Bind Better Than Individual Bases Do. Chembiochem : a European Journal of Chemical Biology |
| Spears HM, Keller SL. (2020) Demixing in Membranes and their Encapsulated Solutions Biophysical Journal. 118: 230a |
| Cornell CE, Mileant A, Lee KK, et al. (2020) Direct Imaging of Lipid Domains in Nanoscale Vesicles by cryoEM Biophysical Journal. 118: 228a |
| Leveille CL, Cornell CE, Merz AJ, et al. (2020) The Role of Growth Temperature and Lipid Composition in Phase Separation of Yeast Vacuole Membranes Biophysical Journal. 118: 228a |
| Cornell CE, Black RA, Xue M, et al. (2019) Prebiotic amino acids bind to and stabilize prebiotic fatty acid membranes. Proceedings of the National Academy of Sciences of the United States of America |