水稻无性生长期抗旱候选基因的连锁图谱绘制与发现

IF 4.8 1区 农林科学 Q1 AGRONOMY
Rice Pub Date : 2024-08-29 DOI:10.1186/s12284-024-00733-9
Aixia Jiao, Li Chen, Xiaoding Ma, Jing Ma, Di Cui, Bing Han, Jianchang Sun, Longzhi Han
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引用次数: 0

摘要

干旱是影响作物产量的主要非生物胁迫。绘制水稻抗旱的数量性状位点(QTLs)图和挖掘抗旱基因对于确定基因功能和分子育种目标非常重要。在此,我们利用吉冷 1 号(干旱敏感)和密阳 23 号(干旱耐受)的重组近交系群体进行了耐旱性的连锁分析。我们的研究团队之前利用全基因组测序的基因型数据构建了超高密度遗传图谱,并结合 2017-2019 年在干旱胁迫条件下田间生长的水稻的表型数据进行了分析。结果发现了 39 个与卷叶指数和叶片枯萎程度相关的 QTL,除 6 号、10 号和 11 号染色体外,其他染色体上都发现了 QTL,其中 qLWD4-1 在 2017 年干旱胁迫 32 天和 46 天后被检测到,解释了表型变异的 7.07%-8.19%。2018 年,在干旱胁迫 29 天、42 天和 57 天后,发现了两个位点 qLRI2-2 和 qLWD4-2。这些位点分别解释了 10.59-17.04% 和 5.14-5.71% 的表型变异。QTL区间内共有281个基因。通过基因功能注释和表达分析,发现了 Os04g0574600 和 OsCHR731 两个候选基因。反转录定量 PCR 分析表明,这些基因在干旱胁迫条件下的表达水平明显高于正常条件下,表明其具有正调控作用。值得注意的是,Os04g0574600是一个新发现的抗旱基因。单倍型分析表明,RIL 群体携带这两个基因的两个单倍型(Hap1 和 Hap2)。携带 Hap2 的品系比携带 Hap1 的品系表现出明显或极强的抗旱性,表明 Hap2 是一种优良的单倍型。在水稻种质资源中,Os04g0574600 和 OsCHR731 分别有两个和三个单倍型。在四川、云南、安徽、广东和福建等省的地方水稻资源中,这两个基因的单倍型所占比例较高。在野生稻中,50%的品种含有 Os04g0574600 的 Hap1,50%的品种含有 Hap4;分别有 13.51%、59.46% 和 27.03%的野生稻品种含有 Hap1、Hap2 和 Hap3。与粳稻相比,在更多的籼稻资源中发现了 Os04g0574600 的 Hap2。因此,Hap2 在未来粳稻抗旱育种中更有利用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Linkage Mapping and Discovery of Candidate Genes for Drought Tolerance in Rice During the Vegetative Growth Period.

Linkage Mapping and Discovery of Candidate Genes for Drought Tolerance in Rice During the Vegetative Growth Period.

Drought is a major abiotic stress affecting crop yields. Mapping quantitative trait loci (QTLs) and mining genes for drought tolerance in rice are important for identifying gene functions and targets for molecular breeding. Here, we performed linkage analysis of drought tolerance using a recombinant inbred line population derived from Jileng 1 (drought sensitive) and Milyang 23 (drought tolerant). An ultra-high-density genetic map, previously constructed by our research team using genotype data from whole-genome sequencing, was used in combination with phenotypic data for rice grown under drought stress conditions in the field in 2017-2019. Thirty-nine QTLs related to leaf rolling index and leaf withering degree were identified, and QTLs were found on all chromosomes except chromosomes 6, 10, and 11. qLWD4-1 was detected after 32 days and 46 days of drought stress in 2017 and explained 7.07-8.19% of the phenotypic variation. Two loci, qLRI2-2 and qLWD4-2, were identified after 29, 42, and 57 days of drought stress in 2018. These loci explained 10.59-17.04% and 5.14-5.71% of the phenotypic variation, respectively. There were 281 genes within the QTL interval. Through gene functional annotation and expression analysis, two candidate genes, Os04g0574600 and OsCHR731, were found. Quantitative reverse transcription PCR analysis showed that the expression levels of these genes were significantly higher under drought stress than under normal conditions, indicating positive regulation. Notably, Os04g0574600 was a newly discovered drought tolerance gene. Haplotype analysis showed that the RIL population carried two haplotypes (Hap1 and Hap2) of both genes. Lines carrying Hap2 exhibited significantly or extremely stronger drought tolerance than those carrying Hap1, indicating that Hap2 is an excellent haplotype. Among rice germplasm resources, there were two and three haplotypes of Os04g0574600 and OsCHR731, respectively. A high proportion of local rice resources in Sichuan, Yunnan, Anhui, Guangdong and Fujian provinces had Hap of both genes. In wild rice, 50% of accessions contained Hap1 of Os04g0574600 and 50% carried Hap4; 13.51%, 59.46% and 27.03% of wild rice accessions contained Hap1, Hap2, and Hap3, respectively. Hap2 of Os04g0574600 was found in more indica rice resources than in japonica rice. Therefore, Hap2 has more potential for utilization in future drought tolerance breeding of japonica rice.

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来源期刊
Rice
Rice AGRONOMY-
CiteScore
10.10
自引率
3.60%
发文量
60
审稿时长
>12 weeks
期刊介绍: Rice aims to fill a glaring void in basic and applied plant science journal publishing. This journal is the world''s only high-quality serial publication for reporting current advances in rice genetics, structural and functional genomics, comparative genomics, molecular biology and physiology, molecular breeding and comparative biology. Rice welcomes review articles and original papers in all of the aforementioned areas and serves as the primary source of newly published information for researchers and students in rice and related research.
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