生物
转录因子
非生物胁迫
表观遗传学
清脆的
热冲击系数
计算生物学
功能(生物学)
热冲击
粮食安全
热应力
生物技术
适应(眼睛)
蓝图
热休克蛋白
基因调控网络
细胞生物学
农作物产量
系统生物学
后生
遗传学
拟南芥
转录调控
干旱胁迫
冷冲击域
信号
生物信息学
基因表达调控
抄写(语言学)
生物强化
战斗或逃跑反应
植物代谢
作者
Yunxuan Feng,Pengguo Xia
摘要
As sessile organisms, plants deploy heat shock transcription factors (HSFs) as key coordinators within a broader transcriptional network that includes bZIPs, MYBs, NACs, and DREBs to combat abiotic/biotic stresses under climate change. Beyond activating heat shock proteins and antioxidant systems, HSFs maintain redox homoeostasis by orchestrating hormone pathways and ROS-hormone signalling crosstalk, and enhance cross-kingdom defence through secondary metabolite synthesis, thus extending their function from thermotolerance to drought, salinity, and pathogen defence. However, current research is limited by overreliance on model plants, unclear HSF dynamics under coupled stresses, and unresolved epigenetic regulation of stress memory. Furthermore, CRISPR editing faces challenges with multigene coordination and field validation. This review integrates HSF structural evolution and network mechanisms, proposing innovative strategies: cross-species genomics, computational modelling of HSF networks, CRISPR-based synthetic stress circuits, and targeted epigenetic modifications for transgenerational resilience. These approaches aim to elucidate HSF-mediated epigenetic stress memory, bridging molecular research with stress-resilient crop breeding to provide a blueprint for next-generation climate-smart crops and sustainable solutions for global food security.
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