David Christopher Nelson
Affiliations: | 2006 | University of Wisconsin, Madison, Madison, WI | |
| 2011-2016 | University of Georgia, Athens, Athens, GA, United States | ||
| 2016- | Botany and Plant Sciences | University of California, Riverside, Riverside, CA, United States |
Area:
Arabidopsis, germination, karrikins, strigolactones, signalingWebsite:
https://profiles.ucr.edu/app/home/profile/davidnGoogle:
"David C Nelson"Bio:
https://nelsonlab.ucr.edu/
https://scholar.google.com/citations?user=ogRW-sYAAAAJ&hl=en
Parents
Sign in to add mentor| Michael R. Sussman | grad student | 2000-2006 | UW Madison (Chemistry Tree) | |
| (Use and evaluation of reverse genetic and DNA microarray-based approaches for characterizing gene function and identifying novel transcripts in Arabidopsis thaliana.) | ||||
| Steven Smith | post-doc | 2006-2010 | University of Western Australia | |
| Winslow R. Briggs | post-doc | 2010-2011 | ||
Children
Sign in to add trainee| Caitlin E. Conn | grad student | 2012-2017 | Berry College |
| Nicholas Morffy | grad student | 2013-2018 | University of Georgia |
| John Stanga | post-doc | 2012-2015 | Mercer University |
| Lionel Faure | post-doc | 2014-2015 | University of Georgia |
| Jiameng Zheng | post-doc | 2016-2018 | UC Riverside |
| Aashima Khosla | post-doc | 2016-2019 | UC Riverside |
| Qingtian Li | post-doc | 2017-2020 | UC Riverside |
BETA: Related publications
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Publications
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| Waters MT, Nelson DC. (2022) Karrikin perception and signalling. The New Phytologist |
| Tian H, Watanabe Y, Nguyen KH, et al. (2022) KARRIKIN UPREGULATED F-BOX 1 negatively regulates drought tolerance in Arabidopsis. Plant Physiology |
| Martinez SE, Conn CE, Guercio AM, et al. (2022) A KARRIKIN INSENSITIVE2 paralog in lettuce mediates highly sensitive germination responses to karrikinolide. Plant Physiology |
| Li Q, Martín-Fontecha ES, Khosla A, et al. (2022) The strigolactone receptor D14 targets SMAX1 for degradation in response to GR24 treatment and osmotic stress. Plant Communications. 3: 100303 |
| White ARF, Mendez JA, Khosla A, et al. (2022) Rapid analysis of strigolactone receptor activity in a mutant. Plant Direct. 6: e389 |
| Ito A, Choi JH, Yokoyama-Maruyama W, et al. (2022) 1,2,3-Triazine formation mechanism of the fairy chemical 2-azahypoxanthine in the fairy ring-forming fungus . Organic & Biomolecular Chemistry |
| Sepulveda C, Guzmán MA, Li Q, et al. (2022) KARRIKIN UP-REGULATED F-BOX 1 (KUF1) imposes negative feedback regulation of karrikin and KAI2 ligand metabolism in . Proceedings of the National Academy of Sciences of the United States of America. 119: e2112820119 |
| Chen J, Nelson DC, Shukla D. (2022) Activation Mechanism of Strigolactone Receptors and Its Impact on Ligand Selectivity between Host and Parasitic Plants. Journal of Chemical Information and Modeling |
| Yoda A, Mori N, Akiyama K, et al. (2021) Strigolactone biosynthesis catalyzed by cytochrome P450 and sulfotransferase in sorghum. The New Phytologist |
| Bursch K, Niemann ET, Nelson DC, et al. (2021) Karrikins control seedling photomorphogenesis and anthocyanin biosynthesis through a HY5-BBX transcriptional module. The Plant Journal : For Cell and Molecular Biology |