利用野生大麦渗入系检测和验证发芽期和苗期耐盐性QTL

Detection and Verification of QTL for Salinity Tolerance at Germination and Seedling Stages Using Wild Barley Introgression Lines.

作者信息

Sayed Mohammed Abdelaziz, Tarawneh Rasha, Youssef Helmy Mohamed, Pillen Klaus, Börner Andreas

机构信息

Agronomy Department, Faculty of Agriculture, Assiut University, Assiut 71526, Egypt.

Resources Genetics and Reproduction, Gene Bank, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK), OT Gatersleben, D-06466 Seeland, Germany.

出版信息

Plants (Basel). 2021 Oct 21;10(11):2246. doi: 10.3390/plants10112246.

DOI:10.3390/plants10112246

PMID:34834608

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8624391/

Abstract

Salinity is one of the major environmental factors that negatively affect crop development, particularly at the early growth stage of a plant and consequently the final yield. Therefore, a set of 50 wild barley ( ssp. , ) introgression lines (ILs) was used to detect QTL alleles improving germination and seedling growth under control, 75 mM, and 150 mM NaCl conditions. Large variation was observed for germination and seedling growth related traits that were highly heritable under salinity stress. In addition, highly significant differences were obtained for five salinity tolerance indices and between treatments as well. A total of 90 and 35 significant QTL were identified for ten investigated traits and for tolerance indices, respectively. The introgression alleles are involved in improving salinity tolerance at forty (43.9%) out of 90 QTL including introgression lines S42IL-109 (2H), S42IL-116 (4H), S42IL-132 (6H), S42IL-133 (7H), S42IL-148 (6H), and S42IL-176 (5H). Interestingly, seven exotic QTL alleles were successfully validated in the wild barley ILs including S42IL-127 (5H), 139 (7H), 125 (5H), 117 (4H), 118 (4H), 121 (4H), and 137 (7H). We conclude that the barley introgression lines contain numerous germination and seedling growth-improving novel QTL alleles, which are effective under salinity conditions.

摘要

盐度是对作物发育产生负面影响的主要环境因素之一，尤其是在植物生长早期，进而影响最终产量。因此，利用一组50个野生大麦（亚种，）渗入系（ILs）来检测在对照、75 mM和150 mM NaCl条件下改善发芽和幼苗生长的QTL等位基因。在盐胁迫下，观察到发芽和幼苗生长相关性状存在很大变异，且这些性状具有高度遗传性。此外，五个耐盐性指标以及不同处理之间也存在极显著差异。分别针对十个研究性状和耐盐性指标鉴定出90个和35个显著的QTL。在90个QTL中的40个（43.9%）中，渗入等位基因参与提高耐盐性，包括渗入系S42IL - 109（2H）、S42IL - 116（4H）、S42IL - 132（6H）、S42IL - 133（7H）、S42IL - 148（6H）和S42IL - 176（5H）。有趣的是，七个外来QTL等位基因在野生大麦ILs中成功得到验证，包括S42IL - 127（5H）、139（7H）、125（5H）、117（4H）、118（4H）、（4H）121和137（7H）。我们得出结论，大麦渗入系包含许多在盐度条件下有效的、改善发芽和幼苗生长的新QTL等位基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0c4a/8624391/1244b0878d18/plants-10-02246-g001.jpg

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利用野生大麦渗入系检测和验证发芽期和苗期耐盐性QTL

Detection and Verification of QTL for Salinity Tolerance at Germination and Seedling Stages Using Wild Barley Introgression Lines.

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