The Function of SD1 on Shoot Length and its Pyramiding Effect on Shoot Length and Plant Height in Rice (Oryza sativa L.).

IF 4.8 1区 农林科学 Q1 AGRONOMY
Rice Pub Date : 2024-03-25 DOI:10.1186/s12284-024-00699-8
Jingfang Dong, Yamei Ma, Haifei Hu, Jian Wang, Wu Yang, Hua Fu, Longting Zhang, Jiansong Chen, Lian Zhou, Wenhui Li, Shuai Nie, Ziqiang Liu, Junliang Zhao, Bin Liu, Tifeng Yang, Shaohong Zhang
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Abstract

Strong seedling vigor is imperative to achieve stable seedling establishment and enhance the competitiveness against weeds in rice direct seeding. Shoot length (SL) is one of the important traits associated with seedling vigor in rice, but few genes for SL have been cloned so far. In the previous study, we identified two tightly linked and stably expressed QTLs for SL, qSL-1f and qSL-1d by genome-wide association study, and cloned the causal gene (LOC_Os01g68500) underlying qSL-1f. In the present study, we identify LOC_Os01g66100 (i.e. the semidwarf gene SD1), a well-known gene controlling plant height (PH) at the adult-plant stage, as the causal gene underlying qSL-1d through gene-based haplotype analysis and knockout transgenic verification. By measuring the phenotypes (SL and PH) of various haplotypes of the two genes and their knockout lines, we found SD1 and LOC_ Os01g68500 controlled both SL and PH, and worked in the same direction, which provided the directly genetic evidence for a positive correlation between SL and PH combined with the analysis of SL and PH in the diverse natural population. Moreover, the knockout transgenic experiments suggested that SD1 had a greater effect on PH compared with LOC_ Os01g68500, but no significant difference in the effect on SL. Further investigation of the pyramiding effects of SD1 and LOC_Os01g68500 based on their haplotype combinations suggested that SD1 may play a dominant role in controlling SL and PH when the two genes coexist. In this study, the effect of SD1 on SL at the seedling stage is validated. In total, two causal genes, SD1 and LOC_ Os01g68500, for SL are cloned in our studies, which controlled both SL and PH, and the suitable haplotypes of SD1 and LOC_ Os01g68500 are beneficial to achieve the desired SL and PH in different rice breeding objectives. These results provide a new clue to develop rice varieties for direct seeding and provide new genetic resources for molecular breeding of rice with suitable PH and strong seedling vigor.

Abstract Image

SD1对水稻(Oryza sativa L.)嫩枝长度的作用及其对嫩枝长度和株高的分层效应
在水稻直播过程中,要实现稳定的育苗并提高对杂草的竞争力,就必须要有较强的秧苗活力。芽长(SL)是与水稻秧苗活力相关的重要性状之一,但迄今为止克隆的SL基因很少。在之前的研究中,我们通过全基因组关联研究发现了两个紧密连锁且稳定表达的 SL QTLs,即 qSL-1f 和 qSL-1d,并克隆了 qSL-1f 背后的因果基因(LOC_Os01g68500)。在本研究中,我们通过基于基因的单倍型分析和基因敲除转基因验证,确定了控制成株期株高(PH)的著名基因 LOC_Os01g66100(即半矮小基因 SD1)为 qSL-1d 的致病基因。通过测定这两个基因的不同单倍型及其基因敲除株系的表型(SL和PH),我们发现SD1和LOC_ Os01g68500同时控制SL和PH,且作用方向一致,这为结合对不同自然群体中SL和PH的分析,证明SL和PH之间存在正相关关系提供了直接的遗传学证据。此外,基因敲除转基因实验表明,与 LOC_ Os01g68500 相比,SD1 对 PH 的影响更大,但对 SL 的影响没有显著差异。根据 SD1 和 LOC_Os01g68500 的单倍型组合对其金字塔效应的进一步研究表明,当这两个基因共存时,SD1 可能在控制 SL 和 PH 方面起主导作用。本研究验证了 SD1 对幼苗期 SL 的影响。我们的研究总共克隆了 SD1 和 LOC_ Os01g68500 这两个控制 SL 和 PH 的因果基因,SD1 和 LOC_ Os01g68500 的合适单倍型有利于实现不同水稻育种目标所需的 SL 和 PH。这些结果为培育直播水稻品种提供了新的线索,也为分子育种培育具有适宜 PH 值和较强育苗活力的水稻提供了新的遗传资源。
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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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