Frederick W. Dahlquist
Affiliations: | Molecular, Cellular, and Developmental Biology | University of California, Santa Barbara, Santa Barbara, CA, United States |
Area:
protein structure and function, nuclear magnetic resonanceWebsite:
http://www.mcdb.ucsb.edu/people/faculty/dahlquistGoogle:
"Frederick Dahlquist"Mean distance: 7.76 | S | N | B | C | P |
Parents
Sign in to add mentor| Michael Raftery | grad student | 1969 | Caltech | |
| (The binding and catalytic properties of lysozyme) | ||||
| Daniel E. Koshland | post-doc | 1969-1971 | UC Berkeley | |
Children
Sign in to add trainee| Peter F. Flynn | research assistant | University of Oregon | |
| Terrence G. Oas | grad student | 1986 | University of Oregon |
| Blake Gillespie | grad student | 1993-1999 | University of Oregon |
| Ian J. Griswold | grad student | 2001 | University of Oregon |
| Aimee M. Eldridge | grad student | 2002 | University of Oregon |
| Bin Hon | grad student | 2002 | University of Oregon |
| Damon J. Hamel | grad student | 2007 | UC Santa Barbara |
| Collin M. Dyer | grad student | 2008 | UC Santa Barbara |
| Tetsuya Kawamura | grad student | 2009 | UC Santa Barbara |
| Armand S. Vartanian | grad student | 2011 | UC Santa Barbara |
| Anh Vu | grad student | 2011 | UC Santa Barbara |
| Guoya Mo | grad student | 2012 | UC Santa Barbara |
| Richard C. Stewart | post-doc | 1987-1990 | University of Oregon (Cell Biology Tree) |
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Publications
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| Ortega G, Mariottini D, Troina A, et al. (2020) Rational design to control the trade-off between receptor affinity and cooperativity. Proceedings of the National Academy of Sciences of the United States of America |
| Kang D, Parolo C, Sun S, et al. (2018) Expanding the scope of protein-detecting electrochemical DNA "scaffold" sensors. Acs Sensors |
| Kang D, Sun S, Kurnik M, et al. (2017) A new architecture for reagentless, protein-based electro-chemical biosensors. Journal of the American Chemical Society |
| Dahlquist FW. (2015) Flagellar Motor Architecture Biophysical Journal. 108: 42a |
| Wang X, Vallurupalli P, Vu A, et al. (2014) The linker between the dimerization and catalytic domains of the CheA histidine kinase propagates changes in structure and dynamics that are important for enzymatic activity. Biochemistry. 53: 855-61 |
| Ortega DR, Mo G, Lee K, et al. (2013) Conformational coupling between receptor and kinase binding sites through a conserved salt bridge in a signaling complex scaffold protein. Plos Computational Biology. 9: e1003337 |
| Matje DM, Krivacic CT, Dahlquist FW, et al. (2013) Distal structural elements coordinate a conserved base flipping network. Biochemistry. 52: 1669-76 |
| Matje DM, Zhou H, Smith DA, et al. (2013) Enzyme-promoted base flipping controls DNA methylation fidelity. Biochemistry. 52: 1677-85 |
| Wang X, Wu C, Vu A, et al. (2012) Computational and experimental analyses reveal the essential roles of interdomain linkers in the biological function of chemotaxis histidine kinase CheA. Journal of the American Chemical Society. 134: 16107-10 |
| Vartanian AS, Paz A, Fortgang EA, et al. (2012) Structure of flagellar motor proteins in complex allows for insights into motor structure and switching. The Journal of Biological Chemistry. 287: 35779-83 |