A single-base deletion in exon 2 of Hd1 delineates monogenic recessive photoperiod insensitivity in aromatic Joha rice: a novel allele for seasonal adaptability.

IF 4.3 2区生物学 Q1 BIOLOGY

Biological Research Pub Date : 2024-11-30 DOI:10.1186/s40659-024-00553-7

Bodeddula Jayasankar Reddy, Shreekant M Baradkar, Tamma V S S Manogna, Dibosh Bordoloi, Subhash C Bihani, Nagendra Sarma Barua, Akhil Ranjan Baruah, Bikram Kishore Das, Suvendu Mondal, Debojit Sarma

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引用次数: 0

Abstract

Background: Assam's aromatic Joha rice is a unique rice class famous for its aroma, taste, and nutritional benefits, which fetch high market prices in domestic and international markets. Joha landraces are inherently poor yielders due to their strong aroma and predominantly photoperiod sensitivity. Hybridization involving non-aromatic HYVs improves yield with concomitant loss of quality. In this context, mutation breeding, a sustainable approach where genetic mutations are induced to create desirable traits, often provides useful allelic variation in specific morpho-agronomic traits. The present study delves into the genetic characterization of a photoperiod-insensitive mutant. As part of our mutation breeding programme, this mutant was isolated from a gamma ray-induced M₂ population of a Joha rice landrace, Kon Joha.

Results: The mutant was unique, and a single recessive gene conditions the induced photoperiod insensitivity. Mutant gene tagging involved 402 SSR and InDel markers, and later polymorphic markers were used for bulk segregant analysis (BSA) in the F2 population of 'mutant × Kalijeera (distant parent)'. BSA revealed an association between the SSR marker RM527 and this mutant trait. This marker is present on chromosome 6 of the rice genome. Using chromosome 6-specific SSR markers in polymorphic screening and BSA revealed another associated marker, RM19725, for the mutant trait. The genomic interval between RM527 and RM19725 harbors a photoperiod-insensitive gene, Hd1, on chromosome 6. Cloning and sequencing of Hd1 genomic fragments from the parents and mutants revealed a single-base deletion in exon 2, leading to a frameshift mutation in the Hd1 protein. This mutation in exon 2 leads to severe structural abnormalities in the CCT domain of the Hd1 protein that is critical for the interaction of the repressing complex with conserved response elements in the florigen gene under long-day conditions, thereby causing photoperiod insensitivity.

Conclusions: The mutant's pleasant aroma and other quality characteristics, comparable to those of the parent cultivar, hold significant promise. They expand its potential use in a structured breeding programme aimed at developing high-value aromatic Joha rice. This rice, resilient to winter- and summer-growing environments and with broad seasonal adaptability, could revolutionize the rice market. The practical value of our research is underscored by this exciting possibility.

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Hd1外显子2的单碱基缺失描述了芳香稻的单基因隐性光周期不敏感：一种新的季节适应性等位基因。

背景：阿萨姆邦的芳香乔哈米是一种独特的米类，以其香气、口感和营养价值而闻名，在国内和国际市场上都有很高的市场价格。由于其强烈的香气和主要的光周期敏感性，约翰地方品种天生产量低。非芳香族杂交品种的杂交提高了产量，但同时也降低了品质。在这种情况下，突变育种是一种可持续的方法，通过诱导基因突变来产生理想的性状，通常在特定的形态农艺性状中提供有用的等位基因变异。本研究深入研究了一个光周期不敏感突变体的遗传特征。作为我们突变育种计划的一部分，该突变体是从Joha稻地方品种Kon Joha的伽马射线诱导M2群体中分离出来的。结果：该突变体具有独特性，单隐性基因可导致光周期不敏感。突变基因标记采用402个SSR和InDel标记，随后用多态性标记对突变体× Kalijeera（远亲）F2群体进行大量分离分析（BSA）。BSA结果显示，SSR标记RM527与该突变性状存在关联。该标记存在于水稻基因组的6号染色体上。利用6号染色体特异SSR标记进行多态性筛选和BSA分析，发现了该突变性状的另一个相关标记RM19725。RM527和RM19725之间的基因组间隔在6号染色体上含有一个光周期不敏感基因Hd1。来自亲本和突变体的Hd1基因组片段的克隆和测序显示，外显子2有一个单碱基缺失，导致Hd1蛋白发生移码突变。这种外显子2的突变导致Hd1蛋白CCT结构域的严重结构异常，这对于在长日照条件下抑制复合物与花原基因中保守反应元件的相互作用至关重要，从而导致光周期不敏感。结论：该突变体的香气和其他品质特征与亲本相当，具有重要的应用前景。他们在一个旨在开发高价值芳香Joha水稻的结构化育种计划中扩大了它的潜在用途。这种水稻能够适应冬季和夏季的生长环境，具有广泛的季节适应性，可能会给大米市场带来革命性的变化。这种令人兴奋的可能性强调了我们研究的实用价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biological Research 生物-生物学

CiteScore

10.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.