Eugene W. Nester
Affiliations: | University of Washington, Seattle, Seattle, WA |
Area:
Botany Biology, Molecular Biology, Plant PhysiologyWebsite:
https://prabook.com/web/eugene_william.nester/69979Google:
"Eugene William Nester"Bio:
DOI: 10.1146/annurev-micro-091313-103703
https://www.k-state.edu/bmb/seminars/hageman/1998-nester.html
https://jb.asm.org/content/82/6/867.short
Parents
Sign in to add mentorJohn Spizizen | grad student | 1959 | Western Reserve University (Microtree) | |
(Biosynthesis of deoxyribonucleic acid in T-2 phage-infected and growing cells of Escherichia coli.) | ||||
Joshua Lederberg | post-doc | Stanford (Chemistry Tree) |
Children
Sign in to add traineeSHARON L. DOTY | grad student | University of Washington (Chemistry Tree) | |
Martin Yanofsky | grad student | 1986 | University of Washington (Plant Biology Tree) |
Renata F. Ditt | grad student | 2004 | University of Washington |
Richard M. Amasino | post-doc | University of Washington (Plant Biology Tree) | |
Peter J. Christie | post-doc | Washington University, Seattle, USA (Microtree) | |
Anath Das | post-doc | University of Washington (Microtree) | |
Stephen C. Winans | post-doc | University of Washington (Microtree) | |
Kathleen Postle | post-doc | 1980 | UW Madison |
Stanton B. Gelvin | post-doc | 1978-1981 | University of Washington |
Trevor Charles | post-doc | 1991-1993 | University of Washington (Chemistry Tree) |
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Publications
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Nester EW. (2014) Agrobacterium: nature's genetic engineer. Frontiers in Plant Science. 5: 730 |
Nester E. (2014) Beyond my wildest expectations. Annual Review of Microbiology. 68: 1-20 |
Matveeva TV, Bogomaz DI, Pavlova OA, et al. (2012) Horizontal gene transfer from genus agrobacterium to the plant linaria in nature. Molecular Plant-Microbe Interactions : Mpmi. 25: 1542-51 |
Charles TC, Jin S, Nester EW. (2012) Two-component sensory transduction systems in phytobacteria. Annual Review of Phytopathology. 30: 463-84 |
Gleick PH, Adams RM, Amasino RM, et al. (2010) Climate change and the integrity of science. Science (New York, N.Y.). 328: 689-90 |
Slater SC, Goldman BS, Goodner B, et al. (2009) Genome sequences of three agrobacterium biovars help elucidate the evolution of multichromosome genomes in bacteria. Journal of Bacteriology. 191: 2501-11 |
Pruss GJ, Nester EW, Vance V. (2008) Infiltration with Agrobacterium tumefaciens induces host defense and development-dependent responses in the infiltrated zone. Molecular Plant-Microbe Interactions : Mpmi. 21: 1528-38 |
Yuan ZC, Haudecoeur E, Faure D, et al. (2008) Comparative transcriptome analysis of Agrobacterium tumefaciens in response to plant signal salicylic acid, indole-3-acetic acid and gamma-amino butyric acid reveals signalling cross-talk and Agrobacterium--plant co-evolution. Cellular Microbiology. 10: 2339-54 |
Yuan ZC, Liu P, Saenkham P, et al. (2008) Transcriptome profiling and functional analysis of Agrobacterium tumefaciens reveals a general conserved response to acidic conditions (pH 5.5) and a complex acid-mediated signaling involved in Agrobacterium-plant interactions. Journal of Bacteriology. 190: 494-507 |
Yuan ZC, Edlind MP, Liu P, et al. (2007) The plant signal salicylic acid shuts down expression of the vir regulon and activates quormone-quenching genes in Agrobacterium. Proceedings of the National Academy of Sciences of the United States of America. 104: 11790-5 |