Was low CO2 a driving force of C4 evolution: Arabidopsis responses to long-term low CO2 stress

机译：低CO2是C4进化的驱动力：拟南芥对长期低CO2胁迫的反应

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The responses of long-term growth of plants under elevated CO2 have been studied extensively. Comparatively, the responses of plants to subambient CO2 concentrations have not been well studied. This study aims to investigate the responses of the model C3 plant, Arabidopsis thaliana, to low CO2 at the molecular level. Results showed that low CO2 dramatically decreased biomass productivity, together with delayed flowering and increased stomatal density. Furthermore, alteration of thylakoid stacking in both bundle sheath and mesophyll cells, upregulation of PEPC and PEPC-K together with altered expression of a number of regulators known involved in photosynthesis development were observed. These responses to low CO2 are discussed with regard to the fitness of C3 plants under low CO2. This work also briefly discusses the relevance of the data to C4 photosynthesis evolution.

机译：在CO 2浓度升高的情况下，植物长期生长的响应已得到广泛研究。相比之下，尚未很好地研究植物对环境CO2浓度的响应。这项研究的目的是在分子水平上研究模式C3植物拟南芥对低CO2的响应。结果表明，低CO2会大大降低生物量生产力，同时延迟开花和增加气孔密度。此外，观察到束鞘和叶肉细胞中类囊体堆积的改变，PEPC和PEPC-K的上调以及已知参与光合作用发展的许多调节子的表达发生了改变。针对低CO2条件下C3植物的适应性，讨论了这些对低CO2的响应。这项工作还简要讨论了数据与C4光合作用进化的相关性。

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期刊名称 Journal of Experimental Botany
作者
Yuanyuan Li; Jiajia Xu; Noor Ul Haq; Hui Zhang; Xin-Guang Zhu;
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年(卷),期 -1(65),13
年度 -1
页码 3657–3667
总页数 11
原文格式 PDF
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1. Was low CO2 a driving force of C-4 evolution: Arabidopsis responses to long-term low CO2 stress [J] . Li Yuanyuan, Xu Jiajia, Ul Haq Noor, Journal of Experimental Botany . 2014,第13期

机译：低CO2是C-4进化的驱动力：拟南芥对长期低CO2胁迫的反应
2. Effects of low atmospheric CO2 and elevated temperature during growth on the gas exchange responses of C3, C3–C4 intermediate, and C4 species from three evolutionary lineages of C4 photosynthesis [J] . Patrick J. Vogan, Rowan F. Sage Oecologia . 2012,第2期

机译：低大气CO2 和生长过程中高温对来自三个进化谱系的C3 ，C3 –C4 中间体和C4 物种气体交换反应的影响C4 的光合作用
3. Natural variation in stress response induced by low CO2 in Arabidopsis thaliana [J] . Chunxia Wu, Yulou Sun, Guang Yang, Central European Journal of Biology . 2020,第1期

机译：拟南芥中低二氧化碳诱导应激反应的自然变化
4. Stress Corrosion Cracking Evolution of Low Alloy Downhole Tubular Steel in CO2 Containing Environment at 175 °C [C] . Arshad Bajvani Gavanluei, David Olson, Brajendra Mishra Corrosion Conference and Expo . 2013

机译：175°C在CO2环境中低合金井下管状钢的应力腐蚀裂纹演化
5. Mechanism of acid reduction at low and high overpotential metal electrodes in the presence and absence of CO2: Implications for CO2 reduction by N-heterocycles. [D] . Zeitler, Elizabeth L. 2014

机译：在存在和不存在CO2的情况下，低电位和高电位金属电极上酸还原的机理：N杂环对CO2还原的影响。
6. From the Cover: Differential use of two cyclic electron flows around photosystem I for driving CO2-concentration mechanism in C4 photosynthesis [O] . Atsushi Takabayashi, Masahiro Kishine, Kozi Asada, 2005

机译：从封面开始：在光系统I周围不同地利用两个循环电子流来驱动C4光合作用中的CO2浓度机制
7. Differential use of two cyclic electron flows around photosystem I for driving CO2-concentration mechanism in C4 photosynthesis [O] . Takabayashi, Atsushi, Kishine, Masahiro, Asada, Kozi, 2005

机译：围绕光系统I的两个循环电子流的差异利用来驱动C4光合作用中的CO2浓度机制
8. Tetracarbon Metallocarboranes. 5. A New Synthetic Route:Synthesis of Co2C4B6and CoC4B7 Nido Cage Systems by Fusion of Dicarbon Cobaltacarboranes in Ethanolic KOH. Crystal Structure of (ETA5-C5H5)2 Co2C4B6H10. [R] . wong , kwai-sam bowser,james r. 1978

机译：四碳金属碳硼烷。 5.一种新的合成路线：通过在乙醇KOH中熔融二碳钴钴碳硼烷合成Co2C4B6和CoC4B7 Nido笼系统。（ETa5-C5H5）2 Co2C4B6H10的晶体结构。

Was low CO2 a driving force of C4 evolution: Arabidopsis responses to long-term low CO2 stress

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