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拟南芥品系中黄酮类化合物代谢和逆境基因表达对复合紫外辐射和低温调控的自然变异

Natural Variation among Arabidopsis Accessions in the Regulation of Flavonoid Metabolism and Stress Gene Expression by Combined UV Radiation and Cold.

机构信息

Max-Planck-Institut f�r Molekulare Pflanzenphysiologie, Am M�hlenberg 1, Potsdam 14476, Germany.

MetaSysX GmbH, Am M�hlenberg 11, Potsdam 14476, Germany.

出版信息

Plant Cell Physiol. 2021 Jul 17;62(3):502-514. doi: 10.1093/pcp/pcab013.

DOI:10.1093/pcp/pcab013
PMID:33544865
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8286136/
Abstract

Plants are constantly exposed to stressful environmental conditions. Plant stress reactions were mainly investigated for single stress factors. However, under natural conditions plants may be simultaneously exposed to different stresses. Responses to combined stresses cannot be predicted from the reactions to the single stresses. Flavonoids accumulate in Arabidopsis thaliana during exposure to UV-A, UV-B or cold, but the interactions of these factors on flavonoid biosynthesis were unknown. We therefore investigated the interaction of UV radiation and cold in regulating the expression of well-characterized stress-regulated genes, and on transcripts and metabolites of the flavonoid biosynthetic pathway in 52 natural Arabidopsis accessions that differ widely in their freezing tolerance. The data revealed interactions of cold and UV on the regulation of stress-related and flavonoid biosynthesis genes, and on flavonoid composition. In many cases, plant reactions to a combination of cold and UV were unique under combined stress and not predictable from the responses to the single stresses. Strikingly, all correlations between expression levels of flavonoid biosynthesis genes and flavonol levels were abolished by UV-B exposure. Similarly, correlations between transcript levels of flavonoid biosynthesis genes or flavonoid contents, and freezing tolerance were lost in the presence of UV radiation, while correlations with the expression levels of cold-regulated genes largely persisted. This may indicate different molecular cold acclimation responses in the presence or absence of UV radiation.

摘要

植物经常暴露于胁迫环境条件下。植物胁迫反应主要针对单一胁迫因素进行研究。然而,在自然条件下,植物可能同时受到不同胁迫的影响。不能根据单一胁迫的反应来预测复合胁迫的响应。在暴露于 UV-A、UV-B 或低温下时,拟南芥中黄酮类化合物会积累,但这些因素对黄酮类生物合成的相互作用尚不清楚。因此,我们研究了 UV 辐射和低温在调节 52 种具有广泛耐寒性差异的天然拟南芥品系中特征明确的应激调节基因的表达,以及在黄酮类生物合成途径的转录物和代谢物方面的相互作用。数据显示,冷和 UV 对与应激相关和黄酮类生物合成基因的调控以及黄酮类化合物组成有相互作用。在许多情况下,植物对冷和 UV 复合胁迫的反应在复合胁迫下是独特的,不能从单一胁迫的反应中预测。引人注目的是,UV-B 暴露后,黄酮类生物合成基因的表达水平与黄酮醇水平之间的所有相关性都被消除。类似地,在存在 UV 辐射的情况下,黄酮类生物合成基因的转录水平或黄酮类化合物含量与耐寒性之间的相关性丧失,而与冷调节基因表达水平的相关性则基本保持不变。这可能表明在存在或不存在 UV 辐射的情况下,冷适应反应存在不同的分子机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d5d9/8286136/55432e6a64f9/pcab013f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d5d9/8286136/b3162d43409d/pcab013f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d5d9/8286136/76288db62814/pcab013f2.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d5d9/8286136/55432e6a64f9/pcab013f8.jpg

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