Genome and transcriptome analyses reveal genes involved in the formation of fine ridges on petal epidermal cells in Hibiscus trionum

Shizuka Koshimizu, Sachiko Masuda, Arisa Shibata, Takayoshi Ishii, K. Shirasu, A. Hoshino, Masanori Arita
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Abstract

Hibiscus trionum, commonly known as the ’Flower of an Hour’, is an easily cultivated plant in the Malvaceae family. The purple base part of its petal exhibits structural color due to the fine ridges on the epidermal cell surface, and the molecular mechanism of ridge formation has been actively investigated. We performed genome sequencing of H. trionum using a long-read sequencing technology with transcriptome and pathway analyses to identify candidate genes for fine structure formation. The ortholog of AtSHINE1, which is involved in the biosynthesis of cuticular wax in Arabidopsis thaliana, was significantly overexpressed in the iridescent tissue. In addition, orthologs of AtCUS2 and AtCYP77A, which contribute to cutin synthesis, were also overexpressed. Our results provide important insights into the formation of fine ridges on epidermal cells in plants using H. trionum as a model.
基因组和转录组分析揭示了参与木槿花瓣表皮细胞细脊形成的基因
木槿,俗称“一小时之花”,是一种易于栽培的锦葵科植物。其花瓣基部紫色部分由于表皮细胞表面的细脊而呈现结构色,脊形成的分子机制已被积极研究。我们使用长读测序技术,结合转录组学和通路分析,对H. trionum进行了基因组测序,以确定精细结构形成的候选基因。参与拟南芥表皮蜡质生物合成的同源基因AtSHINE1在虹彩组织中显著过表达。此外,参与角质素合成的AtCUS2和AtCYP77A同源基因也过表达。我们的研究结果为植物表皮细胞细脊的形成提供了重要的见解。
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