小麦面粉色泽相关位点的育种利用效应分析OA
Analysis of the Breeding Utilization Effects of Loci Related to Wheat Flour Color
[目的]面粉色泽是小麦品质评价的重要指标,鉴定面粉色泽相关位点的优异等位变异,明确其育种利用效应,为小麦面粉色泽分子标记辅助育种提供依据.[方法]利用功能标记对 166 份小麦品种(系)的 12 个面粉色泽相关位点进行分子检测,包括 Psy-A1、Pds-B1、Lcye-A1、Lcye-B1、Lox-B1、Ppo-A1、Ppo-B1、Ppo-D1、Pod-A1、Pod-D1、Pod-2D和 1B/1R 易位,结合面粉色泽(黄色素含量(yellow pigment content,YPC)、L*值、a*值、b*值和白度)鉴定结果,分析不同等位变异对面粉色泽的影响,以期全面系统评价各位点的育种利用效应.[结果]供试材料面粉色泽变异范围较广,YPC 平均值为 1.18 μg·g-1,变幅为 0.57-2.96 μg·g-1;L*值平均值为 90.29,变幅为 87.12-92.16;a*值平均值为-0.86,变幅为-1.78—-0.09;b*值平均值为 8.83,变幅为 5.21-14.69;白度平均值为 86.78,变幅为 81.35-90.30.环境、基因型和基因型与环境间的互作均对面粉色泽产生重要影响,且基因型对表型影响最大.Psy-A1和 1B/1R 易位显著影响YPC、L*值、a*值、b*值和白度;Lcye-B1显著影响 YPC、a*值、b*值和白度;Pds-B1和 Lox-B1显著影响 L*值、b*值和白度;Pod-2D显著影响 L*值和白度;Lcye-A1显著影响 L*值;Ppo-A1和Ppo-D1显著影响 a*值;上述 9 个位点显著影响面粉色泽,育种利用潜力大.含有Psy-A1b、Pds-B1b、Lcye-A1b、Lcye-B1b、Lox-B1a、Ppo-A1b、Ppo-D1a、Pod-2D-GG、Pod-2D-AG和非 1B/1R 易位的小麦品种(系),具有高亮白面粉色泽,将上述基因型命名为优异等位基因,分布频率分别为 34.94%、20.48%、97.59%、66.27%、26.38%、50.91%、57.23%、48.80%、15.06%和 51.20%.随着优异等位基因数目的增加,L*值、a*值和白度逐渐升高,YPC 和 b*值逐渐降低;聚合 7-8 个优异基因的材料面粉色泽最优.不同地区小麦品种(系)面粉色泽及相关基因等位变异频率存在较大差异.郑引 1 号、淄麦 12 和皖麦 19 等 22 个品种聚合了 7 个以上优异等位基因,可作为亲本材料,用于面粉高亮白小麦品种选育.[结论]Psy-A1、Pds-B1、Lcye-A1、Lcye-B1、Lox-B1、Ppo-A1、Ppo-D1、Pod-2D和 1B/1R 易位显著影响面粉色泽,育种实用性强;郑引 1 号、淄麦 12 和皖麦 19 等 22 个品种可作为面粉色泽改良的优异亲本.
[Objective]The flour color is a crucial index for evaluating wheat quality.Identifying superior allelic variations at loci associated with flour color and clarifying their breeding utilization effects will provide a foundation for molecular marker-assisted breeding of wheat flour color.[Method]Using functional markers,molecular detection was conducted on 12 flour color-related loci in 166 wheat varieties(lines),including the Psy-A1,Pds-B1,Lcye-A1,Lcye-B1,Lox-B1,Ppo-A1,Ppo-B1,Ppo-D1,Pod-A1,Pod-D1,Pod-2D genes,and the 1B/1R translocation.Combined with the phenotypic measurements of flour color parameters(Yellow pigment content(YPC),L* value,a* value,b* value and whiteness),the influence of different allelic variations on flour color were analyzed to comprehensively and systematically evaluate the breeding utilization effects of each locus.[Result]The flour color of the tested materials exhibited a wide variation range.The average value of YPC was 1.18 μg·g-1,with a range of 0.57-2.96 μg·g-1;The average value of L* was 90.29,ranging from 87.12 to 92.16;the average a* value was-0.86,varying between-1.78 and-0.09;the average b* value was 8.83,with a range of 5.21-14.69;and the average whiteness was 86.78,spanning from 81.35 to 90.30.Environment,genotype,and the interaction between genotype and environment all significantly influenced flour color,with genotype exerting the strongest effect on the phenotypic variations.Psy-A1 and 1B/1R translocation significantly affected YPC,L* value,a* value,b* value and whiteness;Lcye-B1 significantly influenced YPC,a* value,b* value and whiteness;Pds-B1 and Lox-B1 significantly impacted L* value,b* value and whiteness;Pod-2D significantly influenced L*value and whiteness;Lcye-A1 significantly affected L* value;Ppo-A1 and Ppo-D1 significantly influenced a* value.These nine loci had substantial impacts on flour color and exhibited great potential for breeding applications.Wheat varieties(lines)containing Psy-A1b,Pds-B1b,Lcye-A1b,Lcye-B1b,Lox-B1a,Ppo-A1b,Ppo-D1a,Pod-2D-GG,Pod-2D-AG and non-1B/1R translocation exhibited high brightness and whiteness flour color.These genotypes were designated as superior alleles,with distribution frequencies of 34.94%,20.48%,97.59%,66.27%,26.38%,50.91%,57.23%,48.80%,15.06%and 51.20%,respectively.As the number of superior alleles increased,the L* value,a* value and whiteness gradually increased,while YPC and b* value gradually decreased.The materials pyramiding 7-8 superior genes exhibited the optimal flour color.There were significant differences in flour color and the allelic variation frequencies of related genes among wheat varieties(lines)from different regions.A total of 22 varieties,such as Zhengyin1,Zimai12 and Wanmai19,carried more than seven superior alleles and could be used as parental materials for breeding wheat varieties with high brightness and whiteness flour.[Conclusion]Psy-A1,Pds-B1,Lcye-A1,Lcye-B1,Lox-B1,Ppo-A1,Ppo-D1,Pod-2D and 1B/1R translocation significantly influence flour color and exhibit strong breeding practicability.Twenty-two wheat varieties,such as Zhengyin1,Zimai12 and Wanmai19,can be used as excellent parents for flour color improvement.
翟胜男;韩冉;汪晓璐;李吉虎;刘建军;吕莹莹;何中虎;夏先春;马瑞峰;王颖;李法计;曹新有;李豪圣
山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100中国农业科学院作物科学研究所,北京 100081中国农业科学院作物科学研究所,北京 100081山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100山东省农业科学院作物研究所,济南 250100
小麦面粉色泽分子标记优异等位基因育种利用
Triticum aestivumflour colormolecular markersuperior allelesbreeding utilization
《中国农业科学》 2026 (10)
2061-2074,14
山东省自然科学基金(ZR2023MC205和ZR2023MC155)、山东省泰山学者工程(tspd20221108)、山东省重点研发计划(2023CXPT079-2)、山东省农业科学院创新工程(CXGC2022E01)、国家小麦产业技术体系(CARS-03-06)、济南市"新高校20条"资助项目(202228067)
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