Array of MADS-BoxGenes: Facilitatorfor Rapid Adaptation?

Theissen Guenter; Ruempler Florian; Gramzow Lydia

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Array of MADS-BoxGenes: Facilitatorfor Rapid Adaptation?

机译：疯狂 - BoxGenes数组：促进者快速适应？

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In a world of global warming, the question emerges whether all plants have suitable mechanisms to keep pace with the rapidly changing environment. Most previous studies have focused on either the ability of plants to rapidly acclimatize via physiological and developmental plasticity, or long-term adaptation over thousands of years. However, we wonder whether plants can also adapt to changes in the environment within only a few generations. We hypothesize that rapidly evolving clusters of tandemly duplicated developmental control genes represent a source for fast adaptation. Specifically, we propose that a tandem cluster of FLC-like MADS-box genes involved in the transition to flowering in Arabidopsis functions as a facilitator for rapid adaptation to changes in ambient temperature.

机译：在全球变暖的世界里，问题出现了：是否所有的植物都有合适的机制来跟上快速变化的环境。以前的大多数研究都集中在植物通过生理和发育可塑性快速适应环境的能力，或数千年来的长期适应能力。然而，我们想知道植物是否也能在短短几代内适应环境的变化。我们假设，快速进化的连续复制发育控制基因簇代表了快速适应的来源。具体而言，我们提出，拟南芥中参与向开花转变的FLC样MADS-box基因串联簇作为快速适应环境温度变化的促进剂发挥作用。

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《Trends in Plant Science》 |2018年第7期|共14页
作者
Theissen Guenter; Ruempler Florian; Gramzow Lydia;
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作者单位

Friedrich Schiller Univ Jena Matthias Schleiden Inst Genet Bioinformat &

Mol B Philosophenweg 12 D-07743 Jena Germany;

Friedrich Schiller Univ Jena Matthias Schleiden Inst Genet Bioinformat &

Mol B Philosophenweg 12 D-07743 Jena Germany;

Friedrich Schiller Univ Jena Matthias Schleiden Inst Genet Bioinformat &

Mol B Philosophenweg 12 D-07743 Jena Germany;

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正文语种 eng
中图分类植物学;
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Array of MADS-BoxGenes: Facilitatorfor Rapid Adaptation?

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