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氮素和水分亏缺条件下朗顿硬粒小麦-野生二粒小麦染色体代换系的籽粒品质特性和面团流变学特性

Grain quality characteristics and dough rheological properties in Langdon durum-wild emmer wheat chromosome substitution lines under nitrogen and water deficits.

作者信息

Salmanowicz Bolesław P, Langner Monika, Mrugalska Beata, Ratajczak Dominika, Górny Andrzej G

机构信息

Institute of Plant Genetics, Polish Academy of Sciences, 34 Strzeszynska Str., PL, 60-479, Poznan, Poland.

Faculty of Engineering Management, Poznañ University of Technology, 11 Strzelecka Str., PL, 60-965, Poznan, Poland.

出版信息

J Sci Food Agric. 2017 May;97(7):2030-2041. doi: 10.1002/jsfa.8006. Epub 2016 Sep 30.

DOI:10.1002/jsfa.8006
PMID:27558295
Abstract

BACKGROUND

Wild emmer wheat could serve as a source of novel variation in grain quality and stress resistance for wheat breeding. A set of Triticum durum-T. dicoccoides chromosome substitution lines [LDN(DIC)] and the parental recipient cv. Langdon grown under contrasting water and nitrogen availability in the soil was examined in this study to identify differences in grain quality traits and dough rheological properties.

RESULTS

Significant genotypic variation was found among the materials for studied traits. This variation was also considerably affected by soil treatments and G × E interactions. The substitutions LDN(DIC-1A) and LDN(DIC-1B) showed separate differentiation in the composition of glutenin sub-units. The results indicated that primarily chromosome DIC-6B is stable source of an enhanced grain protein content and advantageous dough rheological properties. Similar features seem to be shown by the substitutions with the DIC-1A, DIC-2A and DIC-6A, but not under nitrogen shortage, when generally a considerable decrease was noticed in the range of genotypic variation in grain quality.

CONCLUSIONS

The substitution lines, particularly those with DIC-6B and DIC-6A and to a lesser extent DIC-1A and DIC-2A, were distinguished by advantageous grain quality traits, mixing properties and dough functionality and appear to be the most promising sources of innovative genes for wheat breeding. © 2016 Society of Chemical Industry.

摘要

背景

野生二粒小麦可作为小麦育种中籽粒品质和抗逆性新变异的来源。本研究检测了一组硬粒小麦-野生二粒小麦染色体代换系【LDN(DIC)】和亲本受体品种Langdon在土壤水分和氮素供应不同的条件下种植时,籽粒品质性状和面团流变学特性的差异。

结果

在所研究的性状中,材料间存在显著的基因型变异。这种变异也受到土壤处理和基因型与环境互作的显著影响。代换系LDN(DIC-1A)和LDN(DIC-1B)在麦谷蛋白亚基组成上表现出不同的分化。结果表明,主要是染色体DIC-6B是籽粒蛋白质含量提高和面团流变学特性优良的稳定来源。DIC-1A、DIC-2A和DIC-6A代换系似乎也表现出类似特征,但在氮素缺乏时并非如此,此时籽粒品质的基因型变异范围普遍显著降低。

结论

代换系,特别是含有DIC-6B和DIC-6A的代换系,以及程度稍低的含有DIC-1A和DIC-2A的代换系,具有优良的籽粒品质性状、混合特性和面团功能特性,似乎是小麦育种中最有前景的创新基因来源。©2016化学工业协会。

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