Parental salt priming improves the low temperature tolerance in wheat offspring via modulating the seed proteome.

第一作者：	Liu, Lei
英文第一作者：	Liu, Lei
联系作者：	Li, Xiangnan
英文联系作者：	Li, Xiangnan
发表年度：	2022
卷：	324
摘要：	Low temperature is one of the main abiotic stresses that inhibit wheat growth and development. To understand the physiological mechanism of salt priming induced low temperature tolerance and its transgenerational effects, the chlorophyl b-deficient mutant (ANK) and its wild type (WT) wheat were subjected to low temperature stress after parental salt priming. Salt priming significantly decreased the levels of superoxide anions, hydrogen peroxide and malondialdehyde in both parental and offspring plants under low temperature. The catalase ac-tivity in parental wheat and activities of dehydroascorbate reductase and glutathione reductase in the offspring were significantly increased by salt priming under low temperature. Meanwhile, salt priming contributed to mantaining the integrity of chloroplast structure and relatively higher net photosynthetic rate (Pn) in both generations under low temperature. Salt priming also improved the carbohydrate metabolism enzyme activities of parental and offspring plants, such as phosphoglucomutase, fructokinase and sucrose synthase. In addition, ANK plants had significantly higher carbohydrate metabolism enzyme activities than WT plants. The differential expressed proteins (DEP) in seeds of two genotypes under salt priming were mainly related to homeostasis, electron transfer activity, photosynthesis and carbohydrate metabolism. Correlation network analysis showed that the expression of DEP under salt priming was significantly correlated to sucrose concentration and cyto-plasmic peroxidase (POX) activity in WT, while that was correlated to various carbohydrate metabolism enzyme activities in ANK plants. These results indicated that the parental salt priming induced modulations of seed proteome regulated the ROS metabolism, photosynthetic carbon assimilation and carbohydrate metabolism, hence enhancing the low temperature tolerance in offspring wheat.
刊物名称：	Plant Science
参与作者：	Liu, L. Li, H. Li, N. Li, S. X. Guo, J. H. Li, X. N.