Isolation and characterization of gamma rays induced mutants for improved agro-morphological performance and harder grain texture in wheat (Triticum aestivum L.).

Amit Rana, Vijay Rana, Suman Bakshi, Vinod Kumar Sood
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Abstract

Purpose: Kernel texture plays a principal role in determining technological flour properties and end-use quality of wheat products. Hence, a multi-year mutation induction programme was conducted to isolate advanced wheat mutant lines with agro-morphologically superior performance, higher disease resistance and harder grain texture.

Materials and methods: Radiation mutagenesis was employed in soft textured wheat variety HPW 89 using gamma rays dose of 250, 300 and 350 Gy (Co60: BARC, Mumbai) and evaluated across M1-5 generations. Promising superior mutants selected were evaluated during M4 and M5 generation for induced variability and trait association for agro-morphological and quality traits. The screened mutants were also determined for induced changes at genetic level using gene specific markers for puroindoline genes.

Results: A total of 293 agro-morphologically superior mutants isolated showed significant genetic variation in the M4 generation. Single kernel characterization system categorized 267 mutants (8.79-50.06) with higher grain hardness than the HPW 89 variety (7.39). Among these, 108 mutants were selected for agro-morphological and molecular characterization. Significant variations were found in these mutants in either pina and pinb or both puroindoline genes. Clustering among these mutants led to the formation of five clusters and a total of eleven mutants were found with better set of agro-morphological, disease resistance and quality traits.

Conclusion: These mutants can serve as important genetic resource for developing harder texture bread wheat varieties in the future grain quality improvement programmes. These mutants will also bridge the need of bakers and millers' requirement of varieties with specific texture and quality.

分离和鉴定伽马射线诱导的突变体,以改善小麦(Triticum aestivum L.)的农业形态学性能和硬粒质地。
目的:麦粒质地在决定面粉的技术特性和小麦产品的最终使用质量方面起着主要作用。因此,我们开展了一项多年诱变计划,以分离出农业形态性能优越、抗病性更强、麦粒质地更硬的先进小麦突变品系:采用伽马射线剂量 250、300 和 350 Gy(Co60:BARC,孟买)对软质小麦品种 HPW 89 进行辐射诱变,并对 M1-5 代进行评估。在 M4 和 M5 代期间,对筛选出的有希望的优良突变体进行了农业形态和品质性状的诱导变异性和性状关联性评估。此外,还利用嘌呤啉基因的特异性标记确定了筛选出的突变体在遗传水平上的诱导变化:结果:共分离出 293 个农业形态优异的突变体,在 M4 代中表现出显著的遗传变异。单粒表征系统对 267 个突变体(8.79-50.06)进行了分类,其籽粒硬度高于 HPW 89 品种(7.39)。其中,108 个突变体被选中进行农业形态和分子特征鉴定。在这些突变体中,pina 和 pinb 基因或两个 puroindoline 基因都发生了显著变化。通过对这些突变体进行聚类,形成了五个聚类,共发现 11 个突变体具有较好的农业形态、抗病性和品质性状:这些突变体可作为未来谷物品质改良计划中培育质地更硬的面包小麦品种的重要遗传资源。这些突变体还将满足面包师和磨坊主对具有特定质地和品质的品种的需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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