水稻分蘖角调控的分子机制研究进展

Rao Saad Rehman, A. Pasha, Syed Ali Zafar, Mujahid Ali, Hassan Bashir, M. U. Saeed, Naveed Ali Ashraf, Abdullah Javed
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引用次数: 3

摘要

作物株型是影响作物产量的重要农艺性状。分蘖角是决定作物植株结构的最关键因素之一,而分蘖角对植株密度的影响很大,从而对籽粒产量产生重大影响。重力是一种作用于地球上所有生物的基本物理力。水稻的植物器官通过感知重力来控制其生长方向,包括分蘖角。本文综述了近年来以水稻分蘖角为研究模型的研究进展,对水稻分蘖角的驯化、水稻分蘖角的遗传调控以及茎部向地性等方面的研究进展进行了综述。最后,我们提出目前在水稻上的发现可以为其他物种的茎部向地性和植物分蘖角度的改善提供线索,从而为未来的农业生产做出贡献。
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Molecular Mechanisms behind the Regulation of Rice Tiller Angle: An Update
Crop plant architecture is an important agronomic trait that contributes greatly to crop yield. Tiller angle is one of the most critical components that determine crop plant architecture, which in turn substantially affects grain yield mainly owing to its large influence on plant density. Gravity is a fundamental physical force that acts on all organisms on earth. Plant organs sense gravity to control their growth orientation, including tiller angle in rice (Oryza sativa). This review summarizes recent research advances made using rice tiller angle as a research model, providing insights into domestication of rice tiller angle, genetic regulation of rice tiller angle, and shoot gravitropism. Finally, we propose that current discoveries in rice can shed light on shoot gravitropism and improvement of plant tiller angle in other species, thereby contributing to agricultural production in the future.
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