咖啡基因型的花期差异与环境、花朵发育和激素调节相关基因的异位和差异表达有关

Marlon Enrique López, Raphael Ricon de Oliveira, Lillian Magalhães Azevedo, Iasminy Silva Santos, Thales Henrique Cherubino Ribeiro, Dapeng Zhang, Antonio Chalfun-Junior
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引用次数: 0

摘要

花的活化和发育的分子途径在模式物种中已得到很好的描述,但在植物中却表现出很大的多样性,而对于像阿拉伯咖啡(Coffea arabica L.)这样具有复杂周期的作物却知之甚少。咖啡植物的生殖发育一年两次,而开花时间对于咖啡的产量和品质至关重要。在本研究中,我们探讨了对比咖啡基因型的花发育和花期的可塑性,以了解相关的代谢和调控转录谱。首先,我们比较了三种咖啡基因型的生殖发育情况,证实阿考(Acauã)花期较晚,奥伊拉斯(Oeiras)花期较早,而自然突变体森珀弗洛伦斯(Semperflorens,Sf)全年持续开花。对糖分和乙烯含量的分析表明,不同基因型的叶片和花蕾在数量上存在差异。为了将这些表型差异与调控发育途径联系起来,我们对不同基因型的嫩枝顶端分生组织、花蕾和叶片进行了 RNA-seq 分析比较。我们的分析发现了 12 478 个差异表达基因,这些基因的富集项主要与激素调控、外部刺激和花的发育有关。值得注意的是,一些生殖发育的主要参与者,如FLOWERING LOCUS T和MADS-box基因的同源物,表现出截然不同的表达模式,一般在Sf突变体中异位上调。这些发现与咖啡基因型的表型差异有关。总之,本研究加深了对咖啡花发育差异的理解,为指导育种计划和未来旨在控制花发育和提高作物产量的研究提供了有价值的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The contrasting flowering-time among coffee genotypes is associated with ectopic and differential expressions of genes related to environment, floral development, and hormonal regulation
The molecular pathways underlying floral activation and development are well described in model species, but exhibit significant diversity in plants that is poorly understood in crops with complex cycles, such as Coffea arabica L. The reproductive development of coffee plants is biannual, and the flowering time is crucial for the coffee productivity and cup quality. In this study, we explored the plasticity of floral development and flowering-time of contrasting coffee genotypes to understand the associated metabolic and regulatory transcriptional profiles. Firstly, we compared the reproductive development of three coffee genotypes, confirming that Acauã is late flowering, Oeiras is early flowering, and the natural mutant Semperflorens (Sf) exhibits continuous flowering throughout the year. Analysis of sugar and ethylene content revealed quantitative differences between genotypes in both leaves and floral buds. To associate these phenotypic differences with the regulatory developmental pathways, we performed RNA-seq analysis comparing the shoot apical meristems, floral buds and leaves of different genotypes. Our analysis identified 12.478 differentially expressed genes, which showed enriched terms mainly related to hormonal regulation, external stimulus and floral development. Notably, some major players of reproductive development, as homologs of FLOWERING LOCUS T and MADS-box genes, showed contrasting expression patterns, generally being ectopically upregulated in the Sf mutant. These findings were associated with the phenotypic differences among coffee genotypes. In conclusion, the present study improves the understanding of the divergence of floral development in coffee, providing valuable insights for directing breeding programs and future studies aiming at controlling floral development and enhancing crop production.
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