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一个稳定的 QTL qSalt-A04-1 有助于棉花种子发芽阶段的耐盐性。

A stable QTL qSalt-A04-1 contributes to salt tolerance in the cotton seed germination stage.

机构信息

State Key Laboratory of North China Crop Improvement and Regulation/North China Key Laboratory for Crop Germplasm Resources of Education Ministry, Hebei Agricultural University, Baoding, China.

出版信息

Theor Appl Genet. 2021 Aug;134(8):2399-2410. doi: 10.1007/s00122-021-03831-0. Epub 2021 Apr 29.

DOI:10.1007/s00122-021-03831-0
PMID:33928409
Abstract

A stable QTL qSalt-A04-1 for salt tolerance in the cotton seed germination stage, and two candidate genes, GhGASA1 and GhADC2, that play negative roles by modulating the GA and PA signalling pathways, respectively, were identified. The successful transition of a seed into a seedling is a prerequisite for plant propagation and crop yield. Germination is a vulnerable stage in a plant's life cycle that is strongly affected by environmental conditions, such as salinity. In this study, we identified a novel quantitative trait locus (QTL) qRGR-A04-1 associated with the relative germination rate (RGR) after salt stress treatment based on a high-density genetic map under phytotron and field conditions, with LOD values that ranged from 6.65 to 16.83 and 6.11-12.63% phenotypic variations in all five environmental tests. Two candidate genes with significantly differential expression between the two parents were finally identified through RNA-seq and qRT-PCR analyses. Further functional analyses showed that GhGASA1- and GhADC2-overexpression lines were more sensitive to salt stress than wild-type Arabidopsis based on the regulation of the transcript levels of gibberellic acid (GA)- and polyamine (PA)- related genes in GA and PA biosynthesis and the reduction in the accumulation of GA and PA, respectively, under salt stress. Virus-induced gene silencing analysis showed that TRV:GASA1 and TRV:ADC2 were more tolerant to salt stress than TRV:00 based on the increased expression of GA synthesis genes and decreased HO content, respectively. Taken together, our results suggested that QTL qRGR-A04-1 and its two harboured genes, GhGASA1 and GhADC2, are promising candidates for salt tolerance improvement in cotton.

摘要

在棉花种子发芽阶段,鉴定到一个稳定的耐盐性数量性状位点(QTL)qSalt-A04-1,以及两个候选基因 GhGASA1 和 GhADC2,它们分别通过调节 GA 和 PA 信号通路发挥负调控作用。种子成功转变为幼苗是植物繁殖和作物产量的前提。发芽是植物生命周期中一个脆弱的阶段,强烈受到环境条件(如盐度)的影响。在本研究中,我们基于温室和田间条件下的高密度遗传图谱,鉴定到一个与盐胁迫处理后的相对发芽率(RGR)相关的新的数量性状位点(QTL)qRGR-A04-1,其 LOD 值在所有五次环境测试中范围为 6.65-16.83 和 6.11-12.63%,表现型变异。通过 RNA-seq 和 qRT-PCR 分析,最终鉴定到两个在两个亲本之间表达差异显著的候选基因。进一步的功能分析表明,GhGASA1 和 GhADC2 过表达系在盐胁迫下比野生型拟南芥更敏感,这是基于 GA 和 PA 生物合成中与 GA 和 PA 相关基因的转录水平的调节,以及 GA 和 PA 的积累分别减少。病毒诱导的基因沉默分析表明,TRV:GASA1 和 TRV:ADC2 比 TRV:00 更耐受盐胁迫,这是基于 GA 合成基因的表达增加和 HO 含量的降低。总之,我们的研究结果表明,QTL qRGR-A04-1 及其两个携带的基因 GhGASA1 和 GhADC2 是棉花耐盐性改良的有前途的候选基因。

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