Function analysis of GmELF3s in regulating soybean flowering time and circadian rhythm

作物学报 Pub Date : 2022-04-01 DOI:10.3724/sp.j.1006.2022.14076

Xin Xu, Chao Qin, T. Zhao, Bin Liu, Hong-Yu Li, Jun Liu

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Abstract

: Soybean is a typical short-day crop. Photoperiod sensitivity seriously affects flowering time, yield, and planting range of soybean, but the mechanism underlying photoperiod and circadian rhythm regulation is still unclear. In Arabidopsis thaliana , ELF3, together with ELF4 and LUX, forms the ELF4-ELF3-LUX complex (Evening Complex, EC), which plays an important role in circadian rhythm and flowering time regulation. In this study, soybean mutants of Gmelf3a/j , Gmelf3b-1 , and Gmelf3b-2 were obtained by CRISPR/Cas9 gene editing system. We found that GmELF3b-1 regulated the flowering time in soybean under long-day conditions by observing flowering phenotypes in these mutants. The phenotypes of heterozygous double mutants re-vealed that there was functional redundancy among GmELF3a/J, GmELF3b-1 , and GmELF3b-2 in regulating flowering time of soybean. Through detecting the expression of circadian related genes in soybean by using qRT-PCR, it was found that the relative expression patterns of GmCAB , GmPRR9a , and GmPRR7a were changed in soybean. In summary, these results suggested that GmELF3a/J, GmELF3b-1, and GmELF3b-2 may regulate the circadian rhythm and flowering time through GmPRR9a and GmPRR7a in soybean.

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GmELF3s调控大豆开花时间和昼夜节律的功能分析

：大豆是典型的短日照作物。光周期敏感性严重影响大豆的开花时间、产量和种植范围，但光周期和昼夜节律调节的机制尚不清楚。在拟南芥中，ELF3与ELF4和LUX一起形成ELF4-ELF3-LUX复合体（Evening complex，EC），该复合体在昼夜节律和开花时间调节中发挥重要作用。本研究通过CRISPR/Cas9基因编辑系统获得了Gmelf3a/j、Gmelf3b-1和Gmelf3f-2的大豆突变体。通过观察这些突变体的开花表型，我们发现GmELF3b-1在长日条件下调节大豆的开花时间。杂合双突变体的表型表明，GmELF3a/J、GmELF3b-1和GmELF3 b-2在调节大豆开花时间方面存在功能冗余。通过qRT-PCR检测大豆昼夜节律相关基因的表达，发现GmCAB、GmPRR9a和GmPRR7a在大豆中的相对表达模式发生了变化。总之，这些结果表明，GmELF3a/J、GmELF3b-1和GmELF3 b-2可能通过GmPRR9a和GmPRR7a调节大豆的昼夜节律和开花时间。

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来源期刊

作物学报 Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.70

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0.00%

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期刊介绍： The major aims of AAS are to report the progresses in the disciplines of crop breeding, crop genetics, crop cultivation, crop physiology, ecology, biochemistry, germplasm resources, grain chemistry, grain storage and processing, bio-technology and biomathematics etc. mainly in China and abroad. AAS provides regular columns for Original papers, Reviews, and Research notes. The strict peer-review procedure guarantees the academic level and raises the reputation of the journal. The readership of AAS is for crop science researchers, students of agricultural colleges and universities, and persons with similar academic level.