Research advances in heat shock proteins and their roles in plant responses to heat stress
热激蛋白及其在植物热胁迫响应中作用的研究进展
📄 英文摘要 English Abstract
Global climate change has led to increased frequency and severity of high-temperature, posing a substantial risk to agricultural productivity worldwide. As a primary abiotic stress factor, heat stress (HS) impairs critical physiologic... Advances in research on thermogenic substances Journal Of Physiological Anthropology In mammals, a constant body temperature is maintained for survival in cold environments, primarily through the activation of thermogenic mechanisms. In this review, we discussed
📄 中文摘要 Chinese Abstract
📋 英文结构化总结 English Structured Summary
摘要整理
Background:
Global climate change has led to increased frequency and severity of high-temperature, posing a substantial risk to agricultural productivity worldwide. As a primary abiotic stress factor, heat stress (HS) impairs critical physiological processes. In mammals, a constant body temperature is maintained for survival in cold environments, primarily through the activation of thermogenic mechanisms.
Methods:
N/A - Review article
Results:
This review discusses advances in research on thermogenic substances and their role in maintaining body temperature in mammals under cold stress conditions.
Data Summary:
N/A - Review article
Conclusions:
The review highlights the importance of thermogenic mechanisms in mammalian survival under cold environmental conditions and summarizes recent advances in understanding thermogenic substances.
Practical Significance:
Understanding thermogenic mechanisms may inform strategies for improving cold tolerance in mammals and potentially contribute to agricultural productivity under climate change conditions.
📋 中文结构化总结 Chinese Structured Summary
背景:
全球气候变化导致高温事件的频率和严重程度不断增加,对全球农业生产力构成了重大威胁。作为一种主要的非生物胁迫因素,热胁迫(HS)会损害关键的生理过程。在哺乳动物中,恒定的体温是通过激活产热机制来维持的,这对于在寒冷环境中的生存至关重要。
方法:
不适用——综述类文章
结果:
本综述讨论了产热物质的研究进展及其在寒冷胁迫条件下维持哺乳动物体温中的作用。
数据总结:
不适用——综述类文章
结论:
本综述强调了产热机制在哺乳动物寒冷环境生存中的重要性,并总结了近年来对产热物质研究的最新进展。
实践意义:
深入理解产热机制可能有助于制定提高哺乳动物耐寒性的策略,并有望为气候变化条件下提高农业生产力提供理论依据。