鉴定两个具有不同非生物胁迫耐受性的优良品系中与麦芽质量相关的 QTL 热点。

Identification of QTL hot spots for malting quality in two elite breeding lines with distinct tolerance to abiotic stress.

机构信息

Leibniz-Institute of Plant Genetics and Crop Plant Research (IPK), Corrensstr. 3, OT Gatersleben, D-06466, Seeland, Germany.

KWS LOCHOW GmbH, Ferdinand-von-Lochow-Str. 5, 29303, Bergen, Germany.

出版信息

BMC Plant Biol. 2018 Jun 4;18(1):106. doi: 10.1186/s12870-018-1323-4.

DOI:10.1186/s12870-018-1323-4

PMID:29866039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5987402/

Abstract

BACKGROUND

Barley (Hordeum vulgare) is an important crop cultivated across the world. Drought is a major abiotic factor compromising barley yield worldwide, therefore in modern spring barley cultivars superior seed and malting quality characteristics should be combined with reasonable level of drought tolerance. Previously we have identified a number of barley lines demonstrating the superior yield performance under drought conditions. The aim of this work was to perform a QTL analysis of malting quality traits in a doubled haploid (DH) mapping population of two elite barley lines that differ in their reaction pattern to drought stress.

RESULTS

A population of DH lines was developed by crossing two drought-tolerant elite breeding lines, Victoriana and Sofiara, exploiting distinct mechanism of drought tolerance, sustaining assimilation vs remobilization. The mapping population was assayed under field conditions at four distinct locations that differed in precipitation rate. DH lines were genotyped with the Illumina 9 K iSelect assay, and linkage map including 1782 polymorphic markers and covering a total map length of 1140 cM was constructed. The result of quantitative trait loci (QTL) analysis showed that majority of the traits were affected by several main effect QTL and/or QTL x environment (QE) interactions. In total, 57, 41, and 5 QTL were associated with yield-related traits, malting quality traits and seed quality traits, respectively. 11 and 29 of mapped QTL explained more than 10 and 5% of phenotypic variation, respectively. In several chromosomal regions co-localization between QTL for various traits were observed. The largest clusters were detected on chromosomes 3H and 4H.

CONCLUSIONS

Our QTL mapping results revealed several novel consistent genomic regions controlling malting quality which could be exploited in marker assisted selection. In this context, the complex QTL region on chromosome 3H seems of particular interest, as it harbors several large effect QTL.

摘要

背景

大麦（Hordeum vulgare）是一种在世界各地广泛种植的重要作物。干旱是影响全球大麦产量的主要非生物因素，因此在现代春大麦品种中，应将优良的种子和麦芽品质特性与合理的耐旱水平相结合。此前，我们已经鉴定出一些在干旱条件下表现出优异产量的大麦品系。本研究的目的是对两个在干旱胁迫反应模式上存在差异的优秀大麦品系的加倍单倍体（DH）作图群体进行麦芽品质性状的 QTL 分析。

结果

通过利用具有不同耐旱机制的两个耐旱性优良育种品系 Victoriana 和 Sofiara 进行杂交，开发了一个 DH 群体，它们分别通过维持同化和再利用来应对干旱胁迫。该作图群体在四个不同降水率的田间条件下进行了测定。DH 系用 Illumina 9K iSelect 进行了基因型分析，并构建了包含 1782 个多态性标记和总长 1140cM 的连锁图谱。数量性状基因座（QTL）分析的结果表明，大多数性状受几个主效 QTL 和/或 QTL 与环境（QE）互作的影响。总共，与产量相关性状、麦芽品质性状和种子品质性状相关的分别有 57、41 和 5 个 QTL。11 个和 29 个映射 QTL 分别解释了超过 10%和 5%的表型变异。在几个染色体区域观察到多个性状的 QTL 共定位。在 3H 和 4H 染色体上检测到最大的簇。

结论

我们的 QTL 作图结果揭示了几个控制麦芽品质的新的一致基因组区域，这些区域可用于标记辅助选择。在这种情况下，3H 染色体上的复杂 QTL 区域似乎特别有趣，因为它包含几个大效应 QTL。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a101/5987402/f8c1bc5a67b0/12870_2018_1323_Fig1_HTML.jpg

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鉴定两个具有不同非生物胁迫耐受性的优良品系中与麦芽质量相关的 QTL 热点。

Identification of QTL hot spots for malting quality in two elite breeding lines with distinct tolerance to abiotic stress.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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