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- 3Caldo, Kristian Mark P.
- 3Weselake, Randall J.
- 3Xu, Yang
- 2Greer, Michael S.
- 2Mietkiewska, Elzbieta
- 8Graduate and Postdoctoral Studies (GPS), Faculty of
- 8Graduate and Postdoctoral Studies (GPS), Faculty of/Theses and Dissertations
- 4Agricultural, Food and Nutritional Science, Department of
- 4Agricultural, Food and Nutritional Science, Department of/Journal Articles (Agricultural, Food and Nutritional Science)
- 2Department of Agricultural, Food, and Nutritional Science
- 1Department of Biological Sciences
- 1Department of Botany
- 1Department of Chemical Engineering
- 1Department of Food Science
- 1Department of Pharmacology
- 1Allen Good (Biological Sciences)
- 1Basu, Urmila (Department of Agricultural, Food & Nutritional Science)
- 1Holt, Andrew (Pharmacology)
- 1Hudson, Alan (Pharmacology)
- 1Rahman, Habibur (Department of Agricultural, Food & Nutritional Science)
- 1Weselake, Randall (Agricultural, Food, and Nutritional Science)
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Spring 2019
Oxygen deprivation (hypoxia and anoxia) is an environmental stress affecting plants worldwide in many natural and man-made ecosystems. Aquaporins exhibit multiple physiological functions in challenging environments. The central role of aquaporins in plant water relations has been widely...
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Seed-specific down-regulation of Arabidopsis CELLULOSE SYNTHASE 1 or 9 reduces seed cellulose content and differentially affects carbon partitioning
Download2020-04-20
Jayawardhane, Kethmi N., Singer, Stacy D., Ozga, Jocelyn A., Rizvi, Syed Masood, Weselake, Randall J., Chen, Guanqun
Key message Seed-specific down-regulation of AtCESA1 and AtCESA9, which encode cellulose synthase subunits, differentially affects seed storage compound accumulation in Arabidopsis. High amounts of cellulose can negatively affect crop seed quality, and, therefore, diverting carbon partitioning...