Molecular mapping of candidate genes in determining red color of perilla leaf.

Advanced biotechnology Pub Date : 2025-02-14 DOI:10.1007/s44307-025-00058-8

Guanwen Xie, Yuxuan Zhang, Shen Xiao, Duan Wu, Hongbin Wang, Qi Shen

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Abstract

Perilla frutescens is a traditional medicinal plant and functional food in Asian communities, characterized by distinct red and green leaf types that have significant phenotypic and medicinal implications. However, the genetic mechanisms controlling anthocyanin synthesis in this species remain unclear. Genetic analysis serves as a powerful tool for investigating the pivotal genes and regulatory mechanisms governing anthocyanin accumulation in red and green perilla. In this study, an F2 segregation population was constructed from a hybrid of red and green perilla, and representative samples were subjected to mix-sequencing using BSA-seq and BSR-seq. A 6.0 Mb candidate region on chromosome 8 was identified, pinpointing PfMYB113b, PfC4H1, and PfF3H as key genes involved in anthocyanin biosynthesis. The insertion of a repeat sequence in the promoter of PfMYB113b leads to alterations in gene expression levels. Furthermore, PfMYB113b regulates the transcription of PfC4H1 and PfF3H, thereby influencing anthocyanin synthesis. These findings enhance our understanding of the genetic regulatory mechanisms underlying leaf coloration in perilla.

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决定紫苏叶红色的候选基因的分子定位。

紫苏（Perilla frutescens）是亚洲地区的一种传统药用植物和功能性食品，其特点是具有明显的红色和绿色叶型，具有重要的表型和药用意义。然而，控制该物种花青素合成的遗传机制尚不清楚。遗传分析是研究红紫苏和绿紫苏花青素积累的关键基因和调控机制的有力工具。本研究以红紫苏和绿紫苏为材料，构建F2分离群体，采用BSA-seq和BSR-seq对代表性样品进行混合测序。在8号染色体上发现了一个6.0 Mb的候选区域，确定PfMYB113b、PfC4H1和PfF3H是参与花青素生物合成的关键基因。在PfMYB113b启动子中插入重复序列导致基因表达水平的改变。此外，PfMYB113b调节PfC4H1和PfF3H的转录，从而影响花青素的合成。这些发现增强了我们对紫苏叶片颜色的遗传调控机制的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advanced biotechnology

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