Genomic dissection of terminal heat tolerance in synthetic hexaploid derived nested introgression libraries of wheat (Triticum aestivum L.)

IF 3.9 4区生物学 Q1 GENETICS & HEREDITY

Functional & Integrative Genomics Pub Date : 2025-05-05 DOI:10.1007/s10142-025-01604-2

Amandeep Kaur, Guriqbal Singh Dhillon, Sandeep Kaur Dhaliwal, Balihar Kaur, Monika Garg, Parveen Chhuneja, Kuldeep Singh, Puja Srivastava, Achla Sharma, Satinder Kaur

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Abstract

The terminal heat stress during grain filling period is major threat to wheat productivity. Heat tolerant QTLs were harnessed from synthetic hexaploid lines (SHWs) derived from heat tolerant Ae. tauschii accessions in present study. SHWs were crossed with two heat susceptible advanced breeding lines to develop nested introgression libraries (S-NILibs). The S-NILibs were evaluated for phenotypic traits and heat tolerance index (HTI) over three years under optimum environment (OE) with sowing at normal date in mid-November and heat stressed environment (HSE) under sown late during mid-December. The panel of 354 S-NILibs was genotyped using the 35 K Axiom® Wheat Breeder’s Array. Genome-wide association study (GWAS) identified a total of 61 marker-trait associations (MTAs) across environments (OE and HSE), associated with different traits using multiple models. Of these, two MTAs AX_94985380 for plant height (PH), spikelet number (SN) and AX_94469933 for plant height (PH), thousand grain weight (TGW) were observed for more than one trait across environments and models. Another MTA for HTI (AX-94461626) mapped on 4B chromosome was observed in all four environments and three models. This MTA originated from genes for Ubiquitin carboxyl-terminal hydrolases which is known for maintenance of the circadian clock at high temperature. A subset of MTAs was validated using KASP markers suggested strong association with traits of PH, SN, flag leaf length (FL) and number of productive tillers (pTN). The S-NILib generated, and QTLs identified in this study are potential pre-breeding resource for heat stress tolerance.

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小麦（Triticum aestivum L.）合成六倍体巢式渐渗文库末端耐热性的基因组剖析

灌浆期末热胁迫是小麦生产的主要威胁。从耐热Ae的合成六倍体株系（SHWs）中获得了耐热qtl。本研究中的陶氏菌属。将shw与2个热敏感高级育种系杂交，建立巢式渐渗文库（S-NILibs）。在11月中旬正常播种的最佳环境（OE）和12月中旬晚播的热胁迫环境（HSE）下，对S-NILibs的3年表型性状和耐热指数进行了评价。使用35k Axiom®小麦育种阵列对354个S-NILibs进行基因分型。全基因组关联研究（GWAS）共发现了61个跨环境（OE和HSE）的标记-性状关联（mta），使用多种模型与不同性状相关。其中，株高（PH）、小穗数（SN）和株高（PH）、千粒重（TGW）的两个MTAs分别为AX_94469933和AX_94469933。在所有四种环境和三种模型中均观察到HTI的另一个MTA （AX-94461626）定位在4B染色体上。这种MTA起源于泛素羧基末端水解酶的基因，该酶在高温下维持生物钟。利用KASP标记验证了一个mta子集与PH、SN、旗叶长（FL）和有效分蘖数（pTN）等性状密切相关。本研究生成的S-NILib和鉴定的qtl是潜在的耐热性预育种资源。

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来源期刊

Functional & Integrative Genomics 生物-遗传学

CiteScore

3.50

自引率

3.40%

发文量

审稿时长

2 months

期刊介绍： Functional & Integrative Genomics is devoted to large-scale studies of genomes and their functions, including systems analyses of biological processes. The journal will provide the research community an integrated platform where researchers can share, review and discuss their findings on important biological questions that will ultimately enable us to answer the fundamental question: How do genomes work?