Yupeng Cai, Li Chen, Xiaoqian Liu, Weiwei Yao, Wensheng Hou
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引用次数: 0
摘要
开花时间和生长期是直接影响大豆(Glycine max (L.) Merr.)适应不同纬度和耕作制度的关键农艺性状。FLOWERING LOCUS T(FT)的同源基因 GmFT2a 和 GmFT5a 整合了多种开花调控途径,显著促进了大豆的开花和成熟。准确定位负责调控 GmFT2a 和 GmFT5a 的基因将提高我们对大豆生长期分子机制的认识。在本研究中,我们发现核因子 Y-C(NFY-C)蛋白 GmNF-YC4 是大豆在长日照(LD)条件下的新型开花抑制因子。GmNF-YC4 通过直接抑制 GmFT2a 和 GmFT5a 的表达来延迟开花和成熟。此外,我们还发现,在大豆驯化过程中,GmNF-YC4 基因所在的染色体区域发生了强烈的选择性掠夺事件。GmNF-YC4Hap3 等位基因主要存在于野生大豆(Glycine soja Siebold & Zucc.)中,并已从主要含有 GmNF-YC4Hap1 等位基因的 G. max 陆生品系和改良栽培品种中消除。此外,在 LD 条件下,Gmnf-yc4 突变体的开花和成熟速度明显加快。这些等位基因可能被证明是提高大豆对高纬度地区适应性的宝贵遗传资源。
GmNF-YC4 delays soybean flowering and maturation by directly repressing GmFT2a and GmFT5a expression
Flowering time and growth period are key agronomic traits which directly affect soybean (Glycine max (L.) Merr.) adaptation to diverse latitudes and farming systems. The FLOWERING LOCUS T (FT) homologs GmFT2a and GmFT5a integrate multiple flowering regulation pathways and significantly advance flowering and maturity in soybean. Pinpointing the genes responsible for regulating GmFT2a and GmFT5a will improve our understanding of the molecular mechanisms governing growth period in soybean. In this study, we identified the Nuclear Factor Y-C (NFY-C) protein GmNF-YC4 as a novel flowering suppressor in soybean under long-day (LD) conditions. GmNF-YC4 delays flowering and maturation by directly repressing the expression of GmFT2a and GmFT5a. In addition, we found that a strong selective sweep event occurred in the chromosomal region harboring the GmNF-YC4 gene during soybean domestication. The GmNF-YC4Hap3 allele was mainly found in wild soybean (Glycine soja Siebold & Zucc.) and has been eliminated from G. max landraces and improved cultivars, which predominantly contain the GmNF-YC4Hap1 allele. Furthermore, the Gmnf-yc4 mutants displayed notably accelerated flowering and maturation under LD conditions. These alleles may prove to be valuable genetic resources for enhancing soybean adaptability to higher latitudes.
期刊介绍:
Journal of Integrative Plant Biology is a leading academic journal reporting on the latest discoveries in plant biology.Enjoy the latest news and developments in the field, understand new and improved methods and research tools, and explore basic biological questions through reproducible experimental design, using genetic, biochemical, cell and molecular biological methods, and statistical analyses.
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