拟南芥短时间和长时间气孔 CO2 响应的遗传控制。

Genetic controls of short- and long-term stomatal CO2 responses in Arabidopsis thaliana.

机构信息

Department of Biological and Environmental Sciences, University of Gothenburg, Gothenburg, Sweden.

Institute of Technology, University of Tartu, Tartu, Estonia.

出版信息

Ann Bot. 2020 Jun 19;126(1):179-190. doi: 10.1093/aob/mcaa065.

DOI:10.1093/aob/mcaa065

PMID:32296835

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7304471/

Abstract

BACKGROUND AND AIMS

The stomatal conductance (gs) of most plant species decreases in response to elevated atmospheric CO2 concentration. This response could have a significant impact on plant water use in a future climate. However, the regulation of the CO2-induced stomatal closure response is not fully understood. Moreover, the potential genetic links between short-term (within minutes to hours) and long-term (within weeks to months) responses of gs to increased atmospheric CO2 have not been explored.

METHODS

We used Arabidopsis thaliana recombinant inbred lines originating from accessions Col-0 (strong CO2 response) and C24 (weak CO2 response) to study short- and long-term controls of gs. Quantitative trait locus (QTL) mapping was used to identify loci controlling short- and long-term gs responses to elevated CO2, as well as other stomata-related traits.

KEY RESULTS

Short- and long-term stomatal responses to elevated CO2 were significantly correlated. Both short- and long-term responses were associated with a QTL at the end of chromosome 2. The location of this QTL was confirmed using near-isogenic lines and it was fine-mapped to a 410-kb region. The QTL did not correspond to any known gene involved in stomatal closure and had no effect on the responsiveness to abscisic acid. Additionally, we identified numerous other loci associated with stomatal regulation.

CONCLUSIONS

We identified and confirmed the effect of a strong QTL corresponding to a yet unknown regulator of stomatal closure in response to elevated CO2 concentration. The correlation between short- and long-term stomatal CO2 responses and the genetic link between these traits highlight the importance of understanding guard cell CO2 signalling to predict and manipulate plant water use in a world with increasing atmospheric CO2 concentration. This study demonstrates the power of using natural variation to unravel the genetic regulation of complex traits.

摘要

背景和目的

大多数植物物种的气孔导度（gs）会随着大气 CO2 浓度的升高而降低。这种响应可能会对未来气候下植物的水分利用产生重大影响。然而，CO2 诱导的气孔关闭响应的调节机制尚未完全阐明。此外，gs 对大气 CO2 增加的短期（数分钟至数小时内）和长期（数周至数月内）响应之间的潜在遗传联系尚未被探索。

方法

我们使用来自 Col-0（对 CO2 响应较强）和 C24（对 CO2 响应较弱）品系的拟南芥重组自交系群体来研究 gs 对升高的 CO2 的短期和长期控制。数量性状位点（QTL）作图用于鉴定控制 gs 对升高的 CO2 的短期和长期响应以及其他与气孔相关的性状的位点。

主要结果

gs 对升高的 CO2 的短期和长期响应具有显著相关性。短期和长期响应均与染色体 2 末端的一个 QTL 相关。该 QTL 的位置通过近等基因系得到了确认，并进一步精细定位到 410-kb 区域。该 QTL 与已知的参与气孔关闭的任何基因都不对应，并且对脱落酸的响应没有影响。此外，我们还鉴定了许多与气孔调节相关的其他位点。

结论

我们鉴定并证实了一个强 QTL 的效应，该 QTL 对应于一个未知的调节因子，在响应升高的 CO2 浓度时控制气孔关闭。短期和长期 gs 对 CO2 响应之间的相关性以及这些性状之间的遗传联系突出了理解保卫细胞 CO2 信号传导的重要性，以便在大气 CO2 浓度不断增加的世界中预测和操纵植物的水分利用。本研究展示了利用自然变异来揭示复杂性状遗传调控的强大力量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fa3c/7304471/2c80bf353695/mcaa065f0001.jpg

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拟南芥短时间和长时间气孔 CO2 响应的遗传控制。

Genetic controls of short- and long-term stomatal CO2 responses in Arabidopsis thaliana.

机构信息

出版信息

BACKGROUND AND AIMS

METHODS

KEY RESULTS

CONCLUSIONS

背景和目的

方法

主要结果

结论

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