基于控制不同小麦基因型籽粒中锌和铜积累的 QTL 进行全面筛选。

A thorough screening based on QTLs controlling zinc and copper accumulation in the grain of different wheat genotypes.

机构信息

College of Life Sciences, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource, National Joint Local Engineering Research Center for Rural Land Resources Use and Consolidation, Nanjing Agricultural University, Nanjing, 210095, People's Republic of China.

Provincial Key Laboratory of Agrobiology, The Jiangsu Provincial Infrastructure for Conservation and Utilization of Agricultural Germplasm, Institute of Germplasm Resources and Biotechnology, Jiangsu Academy of Agricultural Sciences, Nanjing, 210014, People's Republic of China.

出版信息

Environ Sci Pollut Res Int. 2021 Mar;28(12):15043-15054. doi: 10.1007/s11356-020-11690-3. Epub 2020 Nov 23.

DOI:10.1007/s11356-020-11690-3

PMID:33230790

Abstract

Excess trace metals may cause damage to human health due to the consumption of food grain grown in contaminated soils. This study was designed to understand the genetic mechanisms of copper (Cu) and zinc (Zn) accumulation in wheat grain under stressed environments. The differences of Cu/Zn contents in the grain among 246 wheat varieties were analyzed, and the wheat varieties with low or high accumulation of Cu and Zn in the safe range were also screened out. The accumulation of Cu and Zn in grains of "Chushanbao" was lowest, which could be used as a novel germplasm for wheat breeding under heavy metal stress. We found that Cu contents of wheat grain were significantly and positively correlated with Zn. The quantitative trait loci (QTLs) for grain Cu content (GCuC) and grain Zn content (GZnC) were detected by genome-wide association study (GWAS). Twenty-three loci affecting GCuC were identified on chromosomes 1A, 1D, 2A, 2B, 2D, 3A, 3B, 3D, 4A, 4B 4D, 5A, 6D, 7A, and 7B, explaining 2.6-5.8% of the phenotypic variation. Sixteen loci associated with the GZnC on 11 different chromosomes 1B, 2B, 2D, 3A, 3D, 4A, 4B, 5A, 5D, 6B, and 7D were detected, which could explain 2.7~6.6% of phenotypic variance. We also determined five associated loci on chromosomes 2B, 2D, 3A, 4B, and 5A were in pleiotropic regions affecting both GCuC and GZnC. This study would help in better understanding the molecular basis of Cu/Zn accumulation in wheat grain, and the associated markers may be useful for marker-assisted selection (MAS) breeding program.

摘要

过量的痕量金属可能会通过食用受污染土壤中生长的粮食谷物对人类健康造成损害。本研究旨在了解在胁迫环境下小麦籽粒中铜（Cu）和锌（Zn）积累的遗传机制。分析了 246 个小麦品种籽粒中 Cu/Zn 含量的差异，筛选出 Cu 和 Zn 含量在安全范围内较低或较高的小麦品种。“Chushanbao”品种的籽粒中 Cu 和 Zn 积累最低，可作为重金属胁迫下小麦育种的新型种质资源。我们发现，小麦籽粒中的 Cu 含量与 Zn 呈显著正相关。通过全基因组关联研究（GWAS）检测到籽粒 Cu 含量（GCuC）和籽粒 Zn 含量（GZnC）的数量性状位点（QTL）。在染色体 1A、1D、2A、2B、2D、3A、3B、3D、4A、4B、4D、5A、6D、7A 和 7B 上鉴定出影响 GCuC 的 23 个位点，解释了 2.6-5.8%的表型变异。在 11 条不同的染色体 1B、2B、2D、3A、3D、4A、4B、5A、5D、6B 和 7D 上检测到与 GZnC 相关的 16 个位点，可解释 2.7-6.6%的表型方差。还确定了位于染色体 2B、2D、3A、4B 和 5A 上的五个关联位点处于影响 GCuC 和 GZnC 的多效区域。本研究将有助于更好地理解小麦籽粒中 Cu/Zn 积累的分子基础，相关标记可用于辅助选择（MAS）育种计划。

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基于控制不同小麦基因型籽粒中锌和铜积累的 QTL 进行全面筛选。

A thorough screening based on QTLs controlling zinc and copper accumulation in the grain of different wheat genotypes.

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