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脱落酸在草莓中的感知和信号转导:非跃变型果实成熟的模型。

Abscisic acid perception and signaling transduction in strawberry: a model for non-climacteric fruit ripening.

机构信息

Beijing Key Laboratory of New Technology in Agricultural Application, College of Plant Science and Technology, Beijing University of Agriculture, Beijing, China.

出版信息

Plant Signal Behav. 2011 Dec;6(12):1950-3. doi: 10.4161/psb.6.12.18024.

DOI:10.4161/psb.6.12.18024
PMID:22095148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3337185/
Abstract

On basis of fruit differential respiration and ethylene effects, climacteric and non-climacteric fruits have been classically defined. Over the past decades, the molecular mechanisms of climacteric fruit ripening were abundantly described and found to focus on ethylene perception and signaling transduction. In contrast, until our most recent breakthroughs, much progress has been made toward understanding the signaling perception and transduction mechanisms for abscisic acid (ABA) in strawberry, a model for non-climacteric fruit ripening. Our reports not only have provided several lines of strong evidences for ABA-regulated ripening of strawberry fruit, but also have demonstrated that homology proteins of Arabidopsis ABA receptors, including PYR/PYL/RCAR and ABAR/CHLH, act as positive regulators of ripening in response to ABA. These receptors also trigger a set of ABA downstream signaling components, and determine significant changes in the expression levels of both sugar and pigment metabolism-related genes that are closely associated with ripening. Soluble sugars, especially sucrose, may act as a signal molecular to trigger ABA accumulation through an enzymatic action of 9-cis-epoxycarotenoid dioxygenase 1 (FaNCED1). This mini-review offers an overview of these processes and also outlines the possible, molecular mechanisms for ABA in the regulation of strawberry fruit ripening through the ABA receptors.

摘要

基于果实的差异呼吸和乙烯作用,经典地定义了跃变型和非跃变型果实。在过去的几十年中,大量描述了跃变型果实成熟的分子机制,发现其重点在于乙烯的感知和信号转导。相比之下,直到我们最近的突破,在理解草莓中非跃变型果实成熟的信号感知和转导机制方面取得了很大进展,草莓是非跃变型果实成熟的模式植物。我们的报告不仅为草莓果实中 ABA 调控的成熟提供了几条强有力的证据,而且还表明拟南芥 ABA 受体同源蛋白,包括 PYR/PYL/RCAR 和 ABAR/CHLH,作为响应 ABA 的成熟的正调节剂。这些受体还触发了一组 ABA 下游信号成分,并决定了与成熟密切相关的糖和色素代谢相关基因的表达水平的显著变化。可溶性糖,特别是蔗糖,可能作为信号分子通过 9-顺式-环氧类胡萝卜素双加氧酶 1(FaNCED1)的酶促作用触发 ABA 的积累。本综述概述了这些过程,并通过 ABA 受体概述了 ABA 调节草莓果实成熟的可能分子机制。

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Abscisic acid perception and signaling transduction in strawberry: a model for non-climacteric fruit ripening.脱落酸在草莓中的感知和信号转导:非跃变型果实成熟的模型。
Plant Signal Behav. 2011 Dec;6(12):1950-3. doi: 10.4161/psb.6.12.18024.
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本文引用的文献

1
FaPYR1 is involved in strawberry fruit ripening.FaPYR1 参与草莓果实成熟过程。
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Abscisic acid plays an important role in the regulation of strawberry fruit ripening.脱落酸在草莓果实成熟过程的调控中发挥着重要作用。
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Abscisic acid receptors: past, present and future.脱落酸受体:过去、现在和未来。
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The Mg-chelatase H subunit of Arabidopsis antagonizes a group of WRKY transcription repressors to relieve ABA-responsive genes of inhibition.拟南芥镁螯合酶 H 亚基拮抗一组 WRKY 转录阻遏物,从而解除 ABA 应答基因的抑制。
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Sugar and abscisic acid signaling orthologs are activated at the onset of ripening in grape.在葡萄成熟过程中,糖和脱落酸信号的同源物被激活。
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The protein kinase SnRK2.6 mediates the regulation of sucrose metabolism and plant growth in Arabidopsis.蛋白激酶 SnRK2.6 介导拟南芥蔗糖代谢和植物生长的调控。
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A grapevine Shaker inward K(+) channel activated by the calcineurin B-like calcium sensor 1-protein kinase CIPK23 network is expressed in grape berries under drought stress conditions.干旱胁迫条件下,钙调磷酸酶 B 类似物钙感受器 1-蛋白激酶 CIPK23 网络激活的葡萄蔓内 Shaker K(+) 通道在葡萄浆果中表达。
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Arabidopsis mutant deficient in 3 abscisic acid-activated protein kinases reveals critical roles in growth, reproduction, and stress.缺乏3种脱落酸激活蛋白激酶的拟南芥突变体揭示了其在生长、繁殖和应激反应中的关键作用。
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ChlH, the H subunit of the Mg-chelatase, is an anti-sigma factor for SigE in Synechocystis sp. PCC 6803.ChlH是镁螯合酶的H亚基,是集胞藻PCC 6803中SigE的抗σ因子。
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