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设施黄瓜低温耐受性分子机制解析

马雨佳齐宇涵许莎莎张淼魏伦达吴美兰张鑫俊武军凯张文娜

蔬菜Issue(2)：74-85,12.

蔬菜Issue(2)：74-85,12.DOI:10.26924/j.cnki.sczz.2026.2006

设施黄瓜低温耐受性分子机制解析

Molecular Mechanisms Underlying Chilling Tolerance in Protected Cucumber

马雨佳 ¹齐宇涵 ²许莎莎 ³张淼 ¹魏伦达 ¹吴美兰 ⁴张鑫俊 ⁵武军凯 ⁴张文娜¹

作者信息

1. 中国农业大学园艺学院/设施蔬菜生长发育调控北京市重点实验室,北京 100193
2. 中国农业大学园艺学院/设施蔬菜生长发育调控北京市重点实验室,北京 100193||东北农业大学园艺园林学院,黑龙江哈尔滨 150030
3. 中国农业大学园艺学院/设施蔬菜生长发育调控北京市重点实验室,北京 100193||中国农业大学三亚研究院,海南三亚 572025
4. 河北科技师范学院园艺科技学院/河北省特色园艺种质挖掘与创新利用重点实验室,河北昌黎 066004
5. 中国农业大学资源与环境学院/农田土壤污染防控与修复北京市重点实验室,北京 100193
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摘要

Abstract

Cucumber is one of the most important vegetable crops worldwide.However,due to its high sensitivity to low-temperature environments,low-temperature stress severely restricts the development of the cucumber industry.This paper systematically reviews the research progress on chilling tolerance in cucumber.Firstly,It describes the physiological effects of chilling stress on cucumber growth and development,including key physiological response indicators such as membrane lipid peroxidation,photosynthetic system damage and activation of antioxidant enzyme systems.Secondly,It focuses on analyzing the core molecular mechanisms underlying cucumber responses to low temperature,including both C-repeat binding factor(CBF)-dependent and CBF-independent signaling pathways,as well as the regulatory networks of endogenous hormones and signaling molecules such as abscisic acid,jasmonic acid,salicylic acid,ethylene,hydrogen sulfide,brassinosteroids and melatonin.Thirdly,it summarizes research advances in grafting technology,biostimulant application and genetic improvement strategies(traditional breeding and molecular breeding)for enhancing chilling tolerance in cucumber.Finally,it analyzes the current limitations in research on molecular network integration,gene function validation,rootstock-scion interaction mechanisms,the mechanisms of action of exogenous substances and studies on combined stresses.It also outlines future research directions,such as constructing a comprehensive regulatory network for low-temperature signaling,elucidating the regulatory mechanisms of low-temperature signal transport across organs and developing stress model that closely align with actual production conditions.This paper aims to provide a theoretical foundation and technical support for the genetic improvement of low-temperature tolerance in cucumbers and the sustainable development of the industry.

关键词

黄瓜/低温胁迫/生理响应/分子机制/CBF基因/低温耐受性/嫁接/遗传育种

Key words

Cucumis sativus/low-temperature stress/physiological response/molecular mechanism/CBF gene/chilling tolerance/grafting/genetic breeding

分类

农业科技

引用本文复制引用

马雨佳,齐宇涵,许莎莎,张淼,魏伦达,吴美兰,张鑫俊,武军凯,张文娜..设施黄瓜低温耐受性分子机制解析[J].蔬菜,2026,(2):74-85,12.

基金项目

国家自然科学基金面上项目(32372792) （32372792）

中国农业大学"2115人才培育发展支持计划"项目（）

中央引导地方科技发展资金项目(246Z6309G) （246Z6309G）

国家大学生URP创新性实验计划(X2024100190740). （X2024100190740）

蔬菜

ISSN：1001-8336

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