Proteomic analysis of drought-responsive proteins in rice reveals photosynthesis-related adaptations to drought stress |
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Authors: | Nutwadee Chintakovid Maiporn Maipoka Narumon Phaonakrop Michael V. Mickelbart Sittiruk Roytrakul Supachitra Chadchawan |
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Affiliation: | 1.Center of Excellence in Environment and Plant Physiology, Department of Botany, Faculty of Science,Chulalongkorn University,Bangkok,Thailand;2.National Center for Genetic Engineering and Biotechnology, Thailand Science Park,Pathumthani,Thailand;3.Department of Botany and Plant Pathology,Purdue University,West Lafayette,USA;4.Omics Sciences and Bioinformatics Center, Faculty of Science,Chulalongkorn University,Bangkok,Thailand |
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Abstract: | Drought stress inhibits rice growth and biomass accumulation. To identify novel regulators of drought-stress responses in rice, we conducted a proteome-level study of the stress-susceptible (SS) Oryza sativa L. cv. ‘Leung Pratew 123’ and its stress-resistant (SR) somaclonal mutant line. In response to osmotic-stress treatments, 117 proteins were differentially accumulated, with 62 and 49 of these proteins detected in the SS and SR rice lines, respectively. There were six proteins that accumulated in both lines. The proteins in the SS line were mainly related to metabolic processes, whereas the proteins identified in the SR line were primarily related to retrotransposons. These observations suggest that retrotransposons may influence the epigenetic regulation of gene expression in response to osmotic stress. To identify the biological processes associated with drought tolerance in rice, we conducted a co-expression network analysis of 55 proteins that were differentially accumulated in the SR line under osmotic-stress conditions. We identified a major hub gene; LOC_Os04g38600 (encoding a glyceraldehyde-3-phosphate dehydrogenase), suggesting that photosynthetic adaptation via NADP(H) homeostasis contributes to drought tolerance in rice. |
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