小麦中过氧化物酶活性基因TaPod - 7AS和TaPod - 4AL功能标记的开发

Development of functional markers for peroxidase activity genes TaPod-7AS and TaPod-4AL in wheat.

作者信息

Liu Xinyuan, Cheng Yukun, Geng Hongwei, Ren Yi, Cao Junmei, Bai Bin, Xue Yating

机构信息

College of Agronomy, Xinjiang Agricultural University, Urumqi, 830052, China.

Research Institute of Food Crops, Xinjiang Academy of Agricultural Sciences, Urumqi, 830091, China.

出版信息

BMC Genomics. 2025 May 27;26(1):538. doi: 10.1186/s12864-025-11597-8.

DOI:10.1186/s12864-025-11597-8

PMID:40426031

Abstract

Grain peroxidase (POD) has a pivotal role in determining wheat flour color and end-use products. High POD activity in wheat grains can improve the whiteness and commercial value of flour. The POD genes TaPod-7AS and TaPod-4AL have high effects on POD activity in wheat. Function marker for POD genes can be used to improve flour color attributes accurately and efficiently in wheat molecular breeding. Here, wheat POD genes TaPod-7AS and TaPod-4AL were sequenced and characterized, gene expression analysis indicated that TaPod-7AS, TaPod-4AL, TaPod-D1 genes were highly expressed at 21 days after flowering. Function markers POD-7AS1 and POD-7AS2 were developed for TaPod-7AS, amplifying 424-bp and 464-bp PCR fragments in the cultivars with low and high POD activities, respectively. The markers POD-4AL1 and POD-4AL2 for TaPod-4AL amplified 541-bp and 391-bp fragments in the cultivars with low and high POD activities, respectively. The functional markers were validated in a diverse panel of 268 winter wheat cultivars and advanced lines, indicating significant associations between genotypes and POD activity (P < 0.05). The genotypes with favorable alleles TaPod-7ASb/TaPod-4ALb/TaPod-D1b had higher POD activity (749.9 U.g.min) than those with alleles TaPod-7ASa/TaPod-4ALa/TaPod-D1a (mean POD activity 619.4 U.g.min).

摘要

谷物过氧化物酶（POD）在决定小麦面粉颜色和最终用途产品方面起着关键作用。小麦籽粒中高POD活性可提高面粉的白度和商业价值。POD基因TaPod - 7AS和TaPod - 4AL对小麦中的POD活性有很大影响。POD基因的功能标记可用于在小麦分子育种中准确、高效地改善面粉颜色特性。在此，对小麦POD基因TaPod - 7AS和TaPod - 4AL进行了测序和特征分析，基因表达分析表明TaPod - 7AS、TaPod - 4AL、TaPod - D1基因在开花后21天高度表达。针对TaPod - 7AS开发了功能标记POD - 7AS1和POD - 7AS2，分别在POD活性低和高的品种中扩增出424 bp和464 bp的PCR片段。针对TaPod - 4AL的标记POD - 4AL1和POD - 4AL2分别在POD活性低和高的品种中扩增出541 bp和391 bp的片段。这些功能标记在268个冬小麦品种和高代品系的多样化群体中得到验证，表明基因型与POD活性之间存在显著关联（P < 0.05）。具有有利等位基因TaPod - 7ASb/TaPod - 4ALb/TaPod - D1b的基因型比具有等位基因TaPod - 7ASa/TaPod - 4ALa/TaPod - D1a的基因型具有更高的POD活性（平均POD活性749.9 U.g.min）（平均POD活性619.4 U.g.min）。

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小麦中过氧化物酶活性基因TaPod - 7AS和TaPod - 4AL功能标记的开发

Development of functional markers for peroxidase activity genes TaPod-7AS and TaPod-4AL in wheat.

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