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拟南芥和大豆叶片中蛋白质羰基化水平升高以响应二氧化碳浓度升高。

Increased protein carbonylation in leaves of Arabidopsis and soybean in response to elevated [CO2].

作者信息

Qiu Quan-Sheng, Huber Joan L, Booker Fitzgerald L, Jain Vanita, Leakey Andrew D B, Fiscus Edwin L, Yau Peter M, Ort Donald R, Huber Steven C

机构信息

Department of Plant Biology, US Department of Agriculture-Agricultural Research Service, Photosynthesis Research Unit, University of Illinois, 1201 W. Gregory Drive, 197 ERML, Urbana, IL 61801-3838, USA.

出版信息

Photosynth Res. 2008 Aug;97(2):155-66. doi: 10.1007/s11120-008-9310-5. Epub 2008 May 28.

DOI:10.1007/s11120-008-9310-5
PMID:18506594
Abstract

While exposure of C3 plants to elevated [CO2] would be expected to reduce production of reactive oxygen species (ROS) in leaves because of reduced photorespiratory metabolism, results obtained in the present study suggest that exposure of plants to elevated [CO2] can result in increased oxidative stress. First, in Arabidopsis and soybean, leaf protein carbonylation, a marker of oxidative stress, was often increased when plants were exposed to elevated [CO2]. In soybean, increased carbonyl content was often associated with loss of leaf chlorophyll and reduced enhancement of leaf photosynthetic rate (Pn) by elevated [CO2]. Second, two-dimensional (2-DE) difference gel electrophoresis (DIGE) analysis of proteins extracted from leaves of soybean plants grown at elevated [CO2] or [O3] revealed that both treatments altered the abundance of a similar subset of proteins, consistent with the idea that both conditions may involve an oxidative stress. The 2-DE analysis of leaf proteins was facilitated by a novel and simple procedure to remove ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) from soluble soybean leaf extracts. Collectively, these findings add a new dimension to our understanding of global change biology and raise the possibility that oxidative signals can be an unexpected component of plant response to elevated [CO2].

摘要

虽然由于光呼吸代谢减少,预计C3植物暴露于高浓度[CO2]会降低叶片中活性氧(ROS)的产生,但本研究获得的结果表明,植物暴露于高浓度[CO2]会导致氧化应激增加。首先,在拟南芥和大豆中,当植物暴露于高浓度[CO2]时,作为氧化应激标志物的叶片蛋白质羰基化常常增加。在大豆中,羰基含量增加通常与叶片叶绿素损失以及高浓度[CO2]对叶片光合速率(Pn)增强作用的降低有关。其次,对在高浓度[CO2]或[O3]下生长的大豆植株叶片提取的蛋白质进行二维(2-DE)差异凝胶电泳(DIGE)分析表明,两种处理都改变了相似蛋白质亚组的丰度,这与两种条件都可能涉及氧化应激的观点一致。通过一种从可溶性大豆叶片提取物中去除核酮糖-1,5-二磷酸羧化酶/加氧酶(Rubisco)的新颖简单方法,促进了对叶片蛋白质的2-DE分析。总的来说,这些发现为我们对全球变化生物学的理解增添了新的维度,并增加了氧化信号可能是植物对高浓度[CO2]响应中一个意外组成部分的可能性。

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