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Understanding plant responses to drought - from genes to the whole plant.了解植物对干旱的反应——从基因到整株植物。
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Causes of decreased photosynthetic rate and metabolic capacity in water-deficient leaf cells: a critical evaluation of mechanisms and integration of processes.缺水叶片细胞光合速率和代谢能力降低的原因:对机制的批判性评估及过程整合
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SCREAM/ICE1 and SCREAM2 specify three cell-state transitional steps leading to arabidopsis stomatal differentiation.SCREAM/ICE1和SCREAM2确定了拟南芥气孔分化过程中的三个细胞状态转变步骤。
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How do environmental stresses accelerate photoinhibition?环境胁迫如何加速光抑制?
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Water deficits and heat shock effects on photosynthesis of a transgenic Arabidopsis thaliana constitutively expressing ABP9, a bZIP transcription factor.水分亏缺和热激对组成型表达bZIP转录因子ABP9的转基因拟南芥光合作用的影响
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转录因子与环境胁迫下光合作用及相关代谢的调控

Transcription factors and regulation of photosynthetic and related metabolism under environmental stresses.

作者信息

Saibo Nelson J M, Lourenço Tiago, Oliveira Maria Margarida

机构信息

Instituto de Tecnologia Química e Biológica, Universidade Nova de Lisboa, Oeiras, Portugal.

出版信息

Ann Bot. 2009 Feb;103(4):609-23. doi: 10.1093/aob/mcn227. Epub 2008 Nov 13.

DOI:10.1093/aob/mcn227
PMID:19010801
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2707349/
Abstract

BACKGROUND

Environmental conditions, such as water supply, temperature and salinity, strongly affect plant growth and development. Extremes of these conditions (abiotic stresses) adversely affect many different mechanisms associated with plant responses and adaptation to stress: photosynthetic mechanisms, e.g. stomatal control of CO(2) diffusion, photosystem II repair, ribulose bisphosphate carboxylase/oxygenase (Rubisco) activity and scavenging of reactive oxygen species (ROS), are susceptible to damage, and photosynthetic efficiency can be greatly decreased. Responses and adaptations require differential gene expression, which is regulated by specific transcription factors (TFs).

SCOPE

The role and regulation of several TFs involved in abiotic stress response pathways are considered, with emphasis on new findings regarding expression of genes related to both stomatal and non-stomatal limitations to CO(2) photosynthetic assimilation.

CONCLUSIONS

Many TFs, belonging to different families (e.g. MYB, bZIP and DREB), have been related to abiotic stress responses; however, only a few are known to regulate the expression of photosynthesis-related genes in response to stress. Several TFs belonging to the MYB family play an important role in both stomatal and non-stomatal responses by regulation of stomatal numbers and sizes, and metabolic components, respectively. To obtain more insight into this area of potentially large agronomic impact, it is essential to identify and functionally characterize new TFs that mediate the stress responses regulating the expression of genes associated with photosynthesis and related metabolism.

摘要

背景

环境条件,如供水、温度和盐度,强烈影响植物的生长和发育。这些条件的极端情况(非生物胁迫)会对与植物应激反应和适应相关的许多不同机制产生不利影响:光合机制,例如气孔对二氧化碳扩散的控制、光系统II的修复、核酮糖二磷酸羧化酶/加氧酶(Rubisco)的活性以及活性氧(ROS)的清除,都容易受到损害,光合效率会大幅降低。反应和适应需要差异基因表达,这由特定的转录因子(TFs)调控。

范围

考虑了几种参与非生物胁迫反应途径的转录因子的作用和调控,重点是关于与二氧化碳光合同化的气孔和非气孔限制相关基因表达的新发现。

结论

许多属于不同家族(如MYB、bZIP和DREB)的转录因子与非生物胁迫反应有关;然而,已知只有少数转录因子在应激反应中调控光合作用相关基因的表达。属于MYB家族的几种转录因子分别通过调节气孔数量和大小以及代谢成分,在气孔和非气孔反应中发挥重要作用。为了更深入了解这一具有潜在重大农艺影响的领域,识别并功能表征介导应激反应的新转录因子至关重要,这些应激反应调控与光合作用及相关代谢相关基因的表达。