Lubert Stryer
Affiliations: | Stanford University, Palo Alto, CA |
Area:
Vision, G proteins, signal transductionWebsite:
http://news.stanford.edu/news/2007/july25/med-stryer-072507.htmlGoogle:
"Lubert Stryer"Bio:
(1938 - 2024)
https://www.nasonline.org/member-directory/deceased-members/49986.html
DOI: 10.1126/science.adp9584
https://med.stanford.edu/profiles/lubert-stryer
Mean distance: 15.46 (cluster 11) | S | N | B | C | P |
Cross-listing: Chemistry Tree
Parents
Sign in to add mentorElkan Rogers Blout | post-doc | 1961-1962 | Harvard (Chemistry Tree) |
Carolyn Cohen | post-doc | 1961-1962 | Brandeis (Chemistry Tree) |
Edward Mills Purcell | post-doc | 1961-1962 | Harvard (Physics Tree) |
John C. Kendrew | post-doc | 1962-1963 | Cambridge (Chemistry Tree) |
Children
Sign in to add traineeJordan S. Pober | grad student | Yale (Cell Biology Tree) | |
Mark Yeager | grad student | Yale | |
James Bryant Hurley | post-doc | Stanford | |
Alan S. Waggoner | post-doc | Yale | |
Theodore G. Wensel | post-doc | Stanford University Medical School | |
William C. Galley | post-doc | 1967-1968 | Stanford (Chemistry Tree) |
Cheng-Wen Wu | post-doc | 1971-1972 | Yale (Chemistry Tree) |
Richard Alfred Mathies | post-doc | 1974-1976 | Yale (Chemistry Tree) |
David Dale Thomas | post-doc | 1979 | Stanford (Chemistry Tree) |
Roger E. Koeppe | post-doc | 1976-1979 | Stanford (Chemistry Tree) |
Nancy L. Allbritton | post-doc | 1989-1994 | Stanford (Chemistry Tree) |
James Benjamin Ames | post-doc | 1993-1997 | Stanford (Chemistry Tree) |
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Publications
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Tanaka T, Ames J, Kainosho M, et al. (2001) Refinement of the Solution Structure of Calcium-Free, Myristoylated Recoverin Journal of Back and Musculoskeletal Rehabilitation |
Ames JB, Ikura M, Stryer L. (2000) Molecular structure of membrane-targeting calcium sensors in vision: recoverin and guanylate cyclase-activating protein 2. Methods in Enzymology. 316: 121-32 |
Ames JB, Dizhoor AM, Ikura M, et al. (1999) Three-dimensional structure of guanylyl cyclase activating protein-2, a calcium-sensitive modulator of photoreceptor guanylyl cyclases. The Journal of Biological Chemistry. 274: 19329-37 |
Tanaka T, Ames JB, Kainosho M, et al. (1998) Differential isotype labeling strategy for determining the structure of myristoylated recoverin by NMR spectroscopy. Journal of Biomolecular Nmr. 11: 135-52 |
Erickson MA, Lagnado L, Zozulya S, et al. (1998) The effect of recombinant recoverin on the photoresponse of truncated rod photoreceptors. Proceedings of the National Academy of Sciences of the United States of America. 95: 6474-9 |
Ames JB, Ishima R, Tanaka T, et al. (1997) Molecular mechanics of calcium-myristoyl switches. Nature. 389: 198-202 |
Ames JB, Tanaka T, Stryer L, et al. (1996) Portrait of a myristoyl switch protein. Current Opinion in Structural Biology. 6: 432-8 |
Ames JB, Tanaka T, Ikura M, et al. (1995) Nuclear magnetic resonance evidence for Ca(2+)-induced extrusion of the myristoyl group of recoverin. The Journal of Biological Chemistry. 270: 30909-13 |
Ames JB, Porumb T, Tanaka T, et al. (1995) Amino-terminal myristoylation induces cooperative calcium binding to recoverin. The Journal of Biological Chemistry. 270: 4526-33 |
Zozulya S, Ladant D, Stryer L. (1995) Expression and characterization of calcium-myristoyl switch proteins. Methods in Enzymology. 250: 383-93 |