CIMBL55: a repository for maize drought resistance alleles.

Tian Tian, Feng Qin
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引用次数: 0

Abstract

Droughts threaten crop yields worldwide. Compared to other major staple cereal crops, maize (Zea mays) is especially sensitive to drought, which can cause dramatic fluctuations in its yield potential. Natural maize populations contain many superior alleles that can enhance drought resistance through complex regulatory mechanisms. We recently de novo assembled the genome of a prominent drought-resistant maize germplasm, CIMBL55, and systematically dissected the genetic basis for its drought resistance on the genome, transcriptome, and epigenome levels. These analyses revealed 65 favorable drought resistance alleles in CIMBL55. Subsequently, we genetically verified the functions of the drought resistance genes ZmABF4, ZmNAC075, and ZmRtn16 and unraveled the function of ZmRtn16 on a molecular level.

玉米抗旱等位基因库。
干旱威胁着全世界的农作物产量。与其他主要谷类作物相比,玉米(Zea mays)对干旱特别敏感,这可能导致其产量潜力的剧烈波动。天然玉米群体中含有许多优良的等位基因,它们通过复杂的调控机制增强抗旱性。最近,我们重新组装了一种突出的抗旱玉米种质CIMBL55的基因组,并在基因组、转录组和表观基因组水平上系统地剖析了其抗旱的遗传基础。这些分析发现了65个有利的抗旱等位基因。随后,我们从遗传角度验证了抗旱基因ZmABF4、zmac075和ZmRtn16的功能,并在分子水平上揭示了ZmRtn16的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
3.10
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