Physical map of QTL for eleven agronomic traits across fifteen environments, identification of related candidate genes, and development of KASP markers with emphasis on terminal heat stress tolerance in common wheat.

IF 4.4 1区 农林科学 Q1 AGRONOMY Theoretical and Applied Genetics Pub Date : 2024-09-27 DOI:10.1007/s00122-024-04748-0
Sourabh Kumar, Sachin Kumar, Hemant Sharma, Vivudh Pratap Singh, Kanwardeep Singh Rawale, Kaviraj Singh Kahlon, Vikas Gupta, Sunil Kumar Bhatt, Ramanathan Vairamani, Kulvinder Singh Gill, Harindra Singh Balyan
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Abstract

Key message: Key message This study identified stable QTL, promising candidate genes and developed novel KASP markers for heat tolerance, providing genomic resources to assist breeding for the development of high-yielding and heat-tolerant wheat germplasm and varieties. To understand the genetic architecture of eleven agronomic traits under heat stress, we used a doubled-haploid population (177 lines) derived from a heat-sensitive cultivar (PBW343) and a heat-tolerant genotype (KSG1203). This population was evaluated under timely, late and very late sown conditions over locations and years comprising fifteen environments. Best linear unbiased estimates and a genetic map (5,710 SNPs) developed using sequencing-based genotyping were used for QTL mapping. The identified 66 QTL (20 novel) were integrated into wheat physical map (14,263.4 Mb). These QTL explained 5.3% (QDth.ccsu-4A for days to heading and QDtm.ccsu-5B for days to maturity) to 24.9% (QGfd.ccsu-7D for grain filling duration) phenotypic variation. Thirteen stable QTL explaining high phenotypic variation were recommended for marker-assisted recurrent selection (MARS) for optimum/heat stress environments. Selected QTL were validated by their presence in high-yielding doubled-haploid lines. Some QTL for 1000-grain weight (TaERF3-3B, TaFER-5B, and TaZIM-A1), grain yield (TaCol-B5), and developmental traits (TaVRT-2) were co-localized with known genes. Specific known genes for traits like abiotic/biotic stress, grain quality and yield were co-located with 26 other QTL. Furthermore, 209 differentially expressed candidate genes for heat tolerance in plants that encode 28 different proteins were identified. KASP markers for three major/stable QTL, namely QGfd.ccsu-7A for grain filling duration on chromosome 7A (timely sown), QNgs.ccsu-3A for number of grains per spike on 3A, and QDth.ccsu-7A for days to heading on 7A (late and very late sown) environments were developed for MARS focusing on the development of heat-tolerant wheat varieties/germplasm.

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绘制 15 种环境中 11 种农艺性状的 QTL 物理图谱,鉴定相关候选基因,开发 KASP 标记,重点是普通小麦的末期热胁迫耐受性。
关键信息本研究鉴定了耐热性的稳定 QTL、有希望的候选基因并开发了新型 KASP 标记,为培育高产耐热小麦种质和品种提供了基因组资源。为了了解热胁迫下 11 个农艺性状的遗传结构,我们使用了一个由热敏感栽培品种(PBW343)和耐热基因型(KSG1203)衍生的双倍单倍体群体(177 个品系)。该群体在适时播种、晚播种和超晚播种条件下,在 15 个地点和年份进行了评估。利用基于测序的基因分型技术开发的最佳线性无偏估计值和遗传图谱(5,710 个 SNPs)进行了 QTL 绘图。确定的 66 个 QTL(20 个新的 QTL)被整合到小麦物理图谱(14,263.4 Mb)中。这些 QTL 解释了 5.3% (QDth.ccsu-4A 解释了打顶天数,QDtm.ccsu-5B 解释了成熟天数)到 24.9% (QGfd.ccsu-7D 解释了籽粒灌浆期)的表型变异。13 个解释高表型变异的稳定 QTL 被推荐用于最佳/热胁迫环境下的标记辅助重复选择(MARS)。所选 QTL 通过在高产双倍单倍体系中的存在得到了验证。一些千粒重(TaERF3-3B、TaFER-5B 和 TaZIM-A1)、谷物产量(TaCol-B5)和发育性状(TaVRT-2)的 QTL 与已知基因共定位。非生物/生物胁迫、谷物品质和产量等性状的特定已知基因与其他 26 个 QTL 共定位。此外,还发现了 209 个不同表达的植物耐热候选基因,这些基因编码 28 种不同的蛋白质。为 MARS 开发了三个主要/稳定 QTL 的 KASP 标记,即 QGfd.ccsu-7A,表示染色体 7A(适时播种)上的籽粒灌浆期;QNgs.ccsu-3A,表示 3A 上的每穗粒数;QDth.ccsu-7A,表示 7A(晚播种和极晚播)环境下的抽穗期。
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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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