Target of rapamycin (TOR) plays a role in regulating ROS‐induced chloroplast damage during cucumber (Cucumis sativus) leaf senescence

Author:

Ma Lifeng1,Song Tiefeng2,Yu Yongbo1,Liu Linghao1,Qu Mengqi1,Zhou Shuang1,Meng Xiangnan134,Fan Haiyan134ORCID

Affiliation:

1. College of Bioscience and Biotechnology Shenyang Agricultural University Shenyang China

2. Liaoning Academy of Agricultural Sciences Shenyang China

3. Key Laboratory of Fruit and Vegetable Biology and Germplasm Enhancement Shenyang Agricultural University Shenyang China

4. Key Laboratory of Protected Horticulture of Ministry of Education Shenyang Agricultural University Shenyang China

Abstract

AbstractIn cucumber production, delaying leaf senescence is crucial for improving cucumber yield and quality. Target of rapamycin (TOR) is a highly conserved serine/threonine protein kinase in eukaryotes, which can integrate exogenous and endogenous signals (such as cell energy state levels) to stimulate cell growth, proliferation, and differentiation. However, no studies have yet examined the regulatory role of TOR signalling in cucumber leaf senescence. In this study, the effects of TOR signalling on dark‐induced cucumber leaf senescence were investigated using the TOR activator MHY1485 and inhibitor AZD8055 combined with transient transformation techniques. The results indicate that TOR responds to dark‐induced leaf senescence, and alterations in TOR activity/expression influence cucumber leaf resistance to dark‐induced senescence. Specifically, in plants with elevated TOR activity/expression, we observed reduced expression of senescence‐related genes, less membrane lipid damage, decreased cell apoptosis, lower levels of reactive oxygen species production, and less damage to the photosynthetic system compared to the control. In contrast, in plants with reduced TOR activity/expression, we observed higher expression of senescence‐related genes, increased membrane lipid damage, enhanced cell apoptosis, elevated levels of reactive oxygen species production, and more damage to the photosynthetic system. These comprehensive results underscore the critical role of TOR in regulating dark‐induced cucumber leaf senescence. These findings provide a foundation for controlling premature leaf senescence in cucumber production and offer insights for further exploration of leaf senescence mechanisms and the development of more effective control methods.

Funder

National Key Research and Development Program of China

Publisher

Wiley

Subject

Cell Biology,Plant Science,Genetics,General Medicine,Physiology

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