Stomatal development in Arabidopsis.

The arabidopsis book Pub Date : 2013-06-06 Print Date: 2013-01-01 DOI:10.1199/tab.0162
Lynn Jo Pillitteri, Juan Dong
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引用次数: 71

Abstract

Stomata consist of two guard cells that function as turgor-operated valves that regulate gas exchange in plants. In Arabidopsis, a dedicated cell lineage is initiated and undergoes a series of cell divisions and cell-state transitions to produce a stoma. A set of basic helix-loop-helix (bHLH) transcription factors regulates the transition and differentiation events through the lineage, while the placement of stomata relative to each other is controlled by intercellular signaling via peptide ligands, transmembrane receptors, and mitogen-activated protein kinase (MAPK) modules. Some genes involved in regulating stomatal differentiation or density are also involved in hormonal and environmental stress responses, which may provide a link between modulation of stomatal development or function in response to changes in the environment. Premitotic polarlylocalized proteins provide an added layer of regulation, which can be addressed more thoroughly with the identification of additional proteins in this pathway. Linking the networks that control stomatal development promises to bring advances to our understanding of signal transduction, cell polarity, and cell-fate specification in plants.

拟南芥的气孔发育。
气孔由两个保护细胞组成,它们的功能是调节植物体内气体交换的阀门。在拟南芥中,一个专门的细胞系被启动并经历一系列的细胞分裂和细胞状态转变来产生气孔。一组基本的螺旋-环-螺旋(bHLH)转录因子通过谱系调节转变和分化事件,而气孔相对于彼此的位置由细胞间信号传导通过肽配体、跨膜受体和丝裂原活化蛋白激酶(MAPK)模块控制。一些参与调节气孔分化或密度的基因也参与激素和环境胁迫反应,这可能在调节气孔发育或气孔功能以响应环境变化之间提供了联系。有丝分裂前极化定位蛋白提供了一个额外的调控层,这可以通过鉴定该途径中的其他蛋白来更彻底地解决。连接控制气孔发育的网络有望为我们对植物中信号转导、细胞极性和细胞命运规范的理解带来进步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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