Differences in biochemical, physiological and molecular response mechanisms of rice, weedy rice and barnyardgrass subjected to drought

IF 0.8 Q3 AGRICULTURE, MULTIDISCIPLINARY

Pesquisa Agropecuaria Tropical Pub Date : 2022-01-01 DOI:10.1590/1983-40632022v5270487

D. Agostinetto, C. Oliveira, A. Langaro, J. Silva, G. F. Barbieri

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Abstract

ABSTRACT The drought stress tolerance may differ among species and cultivars. The drought effect on plants depends on the impact on the plant’s physiological, biochemical and molecular processes, as well as on its ability to adapt under these conditions. This study aimed to evaluate the physiological and biochemical responses, and determine the expression of the genes OsAPX2, OsHSP24.15, OsHSP71.10 and OsHSP85.88 under drought conditions in rice, weedy rice and barnyardgrass. A greenhouse experiment was performed in a complete randomized design, with four replications and two factors: water conditions (well-watered and water deficit) and plant species [rice (Oryza sativa cv. Puitá), weedy rice (Oryza spp.) and barnyardgrass (Echinochloa spp.)]. Under drought conditions, the rice and weedy rice plants showed more cellular damage than the barnyardgrass, and the three species showed a reduced photosynthetic rate. C3 plants (rice and weedy rice) increased the damage to lipids and proteins at 5 days of drought. However, for C4 plants (barnyardgrass), the drought conditions did not affect the biochemical parameters. The expression of the OsHSP85.88 gene increased in the three plants exposed to water deficit.

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水稻、杂草稻和稗子草对干旱的生化、生理和分子响应机制差异

不同品种和品种对干旱胁迫的耐受性存在差异。干旱对植物的影响取决于对植物生理、生化和分子过程的影响，以及对这些条件的适应能力。本研究旨在评价干旱条件下水稻、杂草稻和禾本科植物OsAPX2、OsHSP24.15、OsHSP71.10和OsHSP85.88基因的生理生化反应，并测定干旱条件下OsAPX2、OsHSP24.15、OsHSP71.10和OsHSP85.88基因的表达。采用完全随机设计的温室试验，4个重复，2个因素:水分条件(丰水和亏水)和植物品种[水稻(Oryza sativa cv。稻谷(禾本科)、杂草稻(禾本科)和禾草(禾本科)]。在干旱条件下，水稻和杂草水稻的细胞损伤比稗子草严重，光合速率降低。C3植物(水稻和杂草稻)在干旱5 d时对脂质和蛋白质的损害增加。而对于C4植物(稗草)，干旱条件对生化参数没有影响。OsHSP85.88基因的表达在水分亏缺的三种植物中均有所增加。

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