Paul B. Larsen
Affiliations: | Biochemistry and Molecular Biology | University of California, Riverside, Riverside, CA, United States |
Area:
Biochemistry, Plant Culture AgricultureWebsite:
https://profiles.ucr.edu/app/home/profile/paullGoogle:
"Paul Brian Larsen" OR "Paul B Larsen"Bio:
Parents
Sign in to add mentor| William Randolph Woodson | grad student | 1994 | Purdue (Plant Biology Tree) | |
| (A study of senescence and the post-pollination response in flowers of Dianthus caryophyllus L. cv. 'White Sim') | ||||
| Stephen Herbert Howell | post-doc | UC Riverside (Plant Biology Tree) | ||
Children
Sign in to add trainee| Matthew J. Christians | grad student | 2008 | UC Riverside |
| Linda M. Robles | grad student | 2010 | UC Riverside |
| Cynthia Nezames | grad student | 2011 | UC Riverside |
| Stephen D. Deslauriers | grad student | 2012 | UC Riverside |
| Ashley A. Alvarez | grad student | 2014 | UC Riverside |
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. |
| Jaskowiak J, Kwasniewska J, Szurman-Zubrzycka M, et al. (2020) Al-Tolerant Barley Mutant Shows the ATR-Regulated DNA Damage Response to Maleic Acid Hydrazide. International Journal of Molecular Sciences. 21 |
| Chen P, Sjogren CA, Larsen PB, et al. (2019) A multi-level level response to DNA damage induced by Aluminium. The Plant Journal : For Cell and Molecular Biology |
| Sjogren CA, Larsen PB. (2017) SUV2, which encodes an ATR-related cell cycle checkpoint and putative plant ATRIP, is required for aluminum dependent root growth inhibition in Arabidopsis. Plant, Cell & Environment |
| Larsen PB. (2015) Mechanisms of ethylene biosynthesis and response in plants. Essays in Biochemistry. 58: 61-70 |
| Sjogren CA, Bolaris SC, Larsen PB. (2015) Aluminum-Dependent Terminal Differentiation of the Arabidopsis Root Tip Is Mediated through an ATR-, ALT2-, and SOG1-Regulated Transcriptional Response. The Plant Cell. 27: 2501-15 |
| Deslauriers SD, Alvarez AA, Lacey RF, et al. (2015) Dominant gain-of-function mutations in transmembrane domain III of ERS1 and ETR1 suggest a novel role for this domain in regulating the magnitude of ethylene response in Arabidopsis. The New Phytologist. 208: 442-55 |
| Nezames CD, Ochoa V, Larsen PB. (2013) Mutational loss of Arabidopsis SLOW WALKER2 results in reduced endogenous spermine concomitant with increased aluminum sensitivity Functional Plant Biology. 40: 67-78 |
| Nezames CD, Ochoa V, Larsen PB. (2012) Mutational loss of Arabidopsis SLOW WALKER2 results in reduced endogenous spermine concomitant with increased aluminum sensitivity. Functional Plant Biology : Fpb. 40: 67-78 |
| Nezames CD, Sjogren CA, Barajas JF, et al. (2012) The Arabidopsis cell cycle checkpoint regulators TANMEI/ALT2 and ATR mediate the active process of aluminum-dependent root growth inhibition. The Plant Cell. 24: 608-21 |
| Robles LM, Deslauriers SD, Alvarez AA, et al. (2012) A loss-of-function mutation in the nucleoporin AtNUP160 indicates that normal auxin signalling is required for a proper ethylene response in Arabidopsis. Journal of Experimental Botany. 63: 2231-41 |