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CO2 浓度升高对拟南芥初级代谢物水平和编码呼吸酶基因转录本及其昼夜节律的影响:与呼吸速率的可能关系。

Effects of elevated CO2 on levels of primary metabolites and transcripts of genes encoding respiratory enzymes and their diurnal patterns in Arabidopsis thaliana: possible relationships with respiratory rates.

机构信息

Department of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo, 113-0033 Japan.

出版信息

Plant Cell Physiol. 2014 Feb;55(2):341-57. doi: 10.1093/pcp/pct185. Epub 2013 Dec 5.

DOI:10.1093/pcp/pct185
PMID:24319073
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3913440/
Abstract

Elevated CO2 affects plant growth and photosynthesis, which results in changes in plant respiration. However, the mechanisms underlying the responses of plant respiration to elevated CO2 are poorly understood. In this study, we measured diurnal changes in the transcript levels of genes encoding respiratory enzymes, the maximal activities of the enzymes and primary metabolite levels in shoots of Arabidopsis thaliana grown under moderate or elevated CO2 conditions (390 or 780 parts per million by volume CO2, respectively). We examined the relationships between these changes and respiratory rates. Under elevated CO2, the transcript levels of several genes encoding respiratory enzymes increased at the end of the light period, but these increases did not result in changes in the maximal activities of the corresponding enzymes. The levels of some primary metabolites such as starch and sugar phosphates increased under elevated CO2, particularly at the end of the light period. The O2 uptake rate at the end of the dark period was higher under elevated CO2 than under moderate CO2, but higher under moderate CO2 than under elevated CO2 at the end of the light period. These results indicate that the changes in O2 uptake rates are not directly related to changes in maximal enzyme activities and primary metabolite levels. Instead, elevated CO2 may affect anabolic processes that consume respiratory ATP, thereby affecting O2 uptake rates.

摘要

CO2 浓度升高会影响植物的生长和光合作用,从而导致植物呼吸作用发生变化。然而,植物呼吸作用对 CO2 浓度升高响应的机制还不太清楚。在这项研究中,我们测量了在中 CO2 或高 CO2 条件下(分别为体积 CO2 浓度 390 或 780 ppm)生长的拟南芥植株的呼吸酶编码基因的转录水平、酶的最大活性和初级代谢物水平的昼夜变化。我们研究了这些变化与呼吸速率之间的关系。在高 CO2 下,一些编码呼吸酶的基因的转录水平在光照末期增加,但这些增加并没有导致相应酶的最大活性发生变化。一些初级代谢物(如淀粉和糖磷酸)的水平在高 CO2 下增加,特别是在光照末期。暗期结束时的 O2 摄取率在高 CO2 下高于中 CO2,但在光照末期则是中 CO2 下高于高 CO2。这些结果表明,O2 摄取率的变化与最大酶活性和初级代谢物水平的变化没有直接关系。相反,高 CO2 可能会影响消耗呼吸 ATP 的合成代谢过程,从而影响 O2 摄取率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5356/3913440/4c46a6e70072/pct185f8p.jpg
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