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来自节节麦的 1P 染色体片段的渗入降低了小麦叶片大小和株高,从而改善了普通小麦的株型。

Introgression of chromosome 1P from Agropyron cristatum reduces leaf size and plant height to improve the plant architecture of common wheat.

机构信息

National Crop Genebank, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing, 100081, China.

出版信息

Theor Appl Genet. 2022 Jun;135(6):1951-1963. doi: 10.1007/s00122-022-04086-z. Epub 2022 Apr 4.

DOI:10.1007/s00122-022-04086-z
PMID:35378599
Abstract

Introducing Agropyron cristatum chromosome 1P into common wheat can significantly reduce the plant height and leaf size, which can improve the plant architecture of common wheat. A new direction in crop breeding is the improvement of plant architecture for dense plantings to obtain higher yields. Wild relatives carry an abundant genetic variation that can increase the diversity of genes for crop genetic improvement. In this study, the A. cristatum 1P addition line, 1PS and 1PL telosomic addition lines were obtained by backcrossing the addition/substitution line II-3-1 (2n = 20'' W + 1P" + 2P") with the commercial recurrent parent cv. Jimai 22. Four continuous years of agronomic trait investigation in the genetic populations suggested that the introduction of A. cristatum chromosome 1P into wheat can significantly improve wheat plant architecture by reducing the plant height, leaf length and leaf width. A. cristatum chromosome arm 1PS reduced the plant height and leaf length of wheat, whereas introducing A. cristatum chromosome arm 1PL reduced the plant height, leaf length and leaf width. Altogether, our results demonstrated that A. cristatum chromosome 1P carries the dominant genes for small leaves and a dwarf habit for the enhancement of plant architecture in wheat. This study highlights wild relative donors as new gene resources for improving wheat plant architecture for dense planting.

摘要

将节节麦 1P 染色体导入普通小麦中,可以显著降低株高和叶片大小,从而改善普通小麦的植株结构。作物育种的一个新方向是改善密植作物的植株结构,以提高产量。野生近缘种携带丰富的遗传变异,可以增加作物遗传改良的基因多样性。本研究通过回交二系 3-1(2n = 20'' W + 1P" + 2P")与商业轮回亲本济麦 22 获得了节节麦 1P 添加系、1PS 和 1PL 端体添加系。在遗传群体中连续 4 年进行农艺性状调查表明,将节节麦染色体 1P 导入小麦中可以通过降低株高、叶片长度和叶片宽度显著改善小麦的植株结构。节节麦染色体臂 1PS 降低了小麦的株高和叶片长度,而导入节节麦染色体臂 1PL 则降低了株高、叶片长度和叶片宽度。总之,我们的结果表明,节节麦 1P 染色体携带控制小叶片和矮秆习性的显性基因,可增强小麦的植株结构。本研究强调了野生近缘种作为改善密植小麦植株结构的新基因资源的重要性。

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本文引用的文献

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Enlisting wild grass genes to combat nitrification in wheat farming: A nature-based solution.招募野生草基因来对抗小麦种植中的硝化作用:一种基于自然的解决方案。
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