Acquiring Control: The Evolution of Stomatal Signalling Pathways

Sussmilch Frances C.; Schultz Joerg; Hedrich Rainer; Roelfsema M. Rob G.

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Acquiring Control: The Evolution of Stomatal Signalling Pathways

机译：获取控制：气孔信号通路的演变

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In vascular plants, stomata balance two opposing functions: they open to facilitate CO2 uptake and close to prevent excessive water loss. Here, we discuss the evolution of three major signalling pathways that are known to control stomatal movements in angiosperms in response to light, CO2, and abscisic acid (ABA). We examine the evolutionary origins of key signalling genes involved in these pathways, and compare their expression patterns between an angiosperm and moss. We propose that variation in stomatal sensitivity to stimuli between plant groups are rooted in differences in: (i) gene presence/absence, (ii) specificity of gene spatial expression pattern, and (iii) protein characteristics and functional interactions.

机译：在血管植物中，气孔平衡两个相反的功能：它们开放，以促进CO2吸收和接近，以防止过度的水分损失。在这里，我们讨论了众所周知的三个主要信号途径的演变，以响应于光，二氧化碳和脱落酸（ABA）来控制心血管中的气孔运动。我们研究了这些途径中涉及的关键信号传导基因的进化起源，并比较了血管植物和苔藓之间的表达模式。我们提出，植物基团之间的刺激的气孔敏感性的变化源于：（i）基因存在/不存在，（ii）基因空间表达模式的特异性，（iii）蛋白质特征和功能相互作用。

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《Trends in Plant Science》 |2019年第4期|共10页
作者
Sussmilch Frances C.; Schultz Joerg; Hedrich Rainer; Roelfsema M. Rob G.;
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作者单位

Univ Wurzburg Inst Mol Plant Physiol &

Biophys D-97082 Wurzburg Germany;

Univ Wurzburg Ctr Computat &

Theoret Biol D-97218 Wurzburg Germany;

Univ Wurzburg Inst Mol Plant Physiol &

Biophys D-97082 Wurzburg Germany;

Univ Wurzburg Inst Mol Plant Physiol &

Biophys D-97082 Wurzburg Germany;

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正文语种 eng
中图分类植物学;
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1. Acquiring Control: The Evolution of Stomatal Signalling Pathways [J] . Sussmilch Frances C., Schultz Joerg, Hedrich Rainer, Trends in Plant Science . 2019,第4期

机译：获取控制：气孔信号通路的演变
2. Acquiring control: The evolution of ROS-Induced oxidative stress and redox signaling pathways in plant stress responses [J] . Farooq Muhammad Ansar, Niazi Adnan Khan, Akhtar Javaid, Plant Physiology and Biochemistry . 2019,第期

机译：获取控制：植物应激响应中ROS诱导的氧化应激和氧化还原信号传导途径的演变
3. Alteration of Proteotranscriptomic Landscape Reveals the Transcriptional Regulatory Circuits Controlling Key-Signaling Pathways and Metabolic Reprogramming During Tumor Evolution [J] . Andrieux Geoffroy, Chakraborty Sajib, Das Tonmoy, Frontiers in Cell and Developmental Biology . 2020,第1期

机译：改变蛋白质传记组织景观揭示了在肿瘤进化期间控制了控制关键信号通路和代谢重编程的转录调节电路
4. SO-2 induces stomatal closure in sweetpotato and acts upstream of H-2S and NO signaling pathways [C] . Hua Zhang, Zhihua Qiu, Lanying Hu, Sweetpotato in food and energy security. . 2010

机译：SO-2诱导甘薯气孔关闭，并在H-2S和NO信号通路上游起作用
5. Functional proteomics of Arabidopsis thaliana guard cells uncovers new stomatal signaling pathways. [D] . Zhao, Zhixin. 2008

机译：拟南芥保卫细胞的功能蛋白质组学揭示了新的气孔信号通路。
6. Th Cells Promote CTL Survival and Memory via Acquired pMHC-I and Endogenous IL-2 and CD40L Signaling and by Modulating Apoptosis-Controlling Pathways [O] . Channakeshava Sokke Umeshappa, Yufeng Xie, Shulin Xu, -1

机译：Th细胞通过获得的pMHC-1和内源性IL-2和CD40L信号传导以及通过调节细胞凋亡控制途径来促进CTL存活和记忆
7. Acquiring Control: The Evolution of Stomatal Signalling Pathways [O] . Frances C. Sussmilch, Jörg Schultz, Rainer Hedrich, 2019

机译：获取控制：气孔信号通路的演变

Acquiring Control: The Evolution of Stomatal Signalling Pathways

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