抑制AtCLH1的表达导致叶绿素a/b比值降低,但不影响叶片衰老过程中叶绿素降解速率。

植物生理与分子生物学学报 Pub Date : 2007-12-01
Xiao Zhou, Yang Liao, Guo-Dong Ren, Yan-Yan Zhang, Wen-Jun Chen, Ben-Ke Kuai
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引用次数: 0

摘要

为了探究叶绿素酶(Chlase)在叶片衰老过程中对叶绿素(Chl)降解的可能调控作用,构建RNAi拟南芥(Arabidopsis thaliana)植株,抑制AtCLH1和/或AtCLH2的表达。在RNAi植物中,AtCLH1和/或AtCLH2转录水平显著降低,Chlase活性相应受到抑制,但Chl降解动力学不受影响。进一步分析结果表明,在叶片衰老过程中,AtCLH1 RNAi系Chl a/b比值降低,而宽型RNAi系Chl a/b比值升高。此外,在所研究的所有植物的衰老初始阶段都一致检测到诱导的切酶活性。相比之下,在宽型和RNAi植物中,AtCLH1和AtCLH2的转录水平在衰老开始时急剧下降。有趣的是,与宽型相比,在所有检测的三种RNAi系中,在整个暗孵育期间,RNAi靶向Chlase基因的转录水平持续较低但仍然显著,这表明某种代偿调节机制的功能。基于这些结果,结合相关报道,我们得出结论,Chlase可能在叶片衰老初期需要,很可能在chlb转化为a的过程中发挥作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Repression of AtCLH1 expression results in a decrease in the ratio of chlorophyll a/b but doesnot affect the rate of chlorophyll degradation during leaf senescence.

To explore the possible regulatory role of chlorophyllase (Chlase) in chlorophyll (Chl) degradation during leaf senescence, RNAi Arabidopsis (Arabidopsis thaliana) plants were constructed to repress the expressions of AtCLH1 and/or AtCLH2. Transcript levels of AtCLH1 and/or AtCLH2 were dramatically lowered and Chlase activity was correspondingly inhibited, but the Chl degradation kinetics was not affected in the RNAi plants. Results of further analysis indicated that the Chl a/b ratio decreased in AtCLH1 RNAi lines, in comparison with the increasing Chl a/b ratio in the wide type during leaf senescence. In addition, an induced Chlase activity was consistently detected at the initial stage of senescence in all the plants examined. In contrast, transcript levels of both AtCLH1 and AtCLH2 decreased dramatically upon the initiation of senescence in both the wide-type and the RNAi plants. Interestingly, compared with the wide type, lower but still significant transcript levels of the RNAi targeted Chlase gene(s) were sustained during the whole period of dark incubation in all the three RNAi lines examined, indicating the functioning of some compensatively regulating mechanism. Based on these results, along with related reports, we conclude that Chlase might be required at the initial stage of leaf senescence, quite likely playing a role in converting Chl b to a.

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