QTL mapping and identification of candidate genes for anthocyanidin accumulation in Salvia miltiorrhiza flowers.

IF 3 2区生物学 Q2 EVOLUTIONARY BIOLOGY

Journal of Heredity Pub Date : 2025-06-02 DOI:10.1093/jhered/esaf004

Yan Yu, Ziying Li, Yichao Wu, Gang Xie, Yuhuan Guo, Zaijun Yang

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引用次数: 0

Abstract

Salvia miltiorrhiza Bunge is an ornamental plant known for its diverse flower colors, ranging from white to dark violet. To elucidate the regulatory mechanisms underlying flower color, we conducted QTL mapping and identified candidate genes involved in anthocyanidin accumulation. Total anthocyanidin content and six anthocyanidins in the corollas of S. miltiorrhiza were quantified using the pH differential method and HPLC, respectively. Composite interval mapping was employed to identify QTLs, followed by the identification of candidate genes based on stable QTL intervals across at least two different planting environments. These candidate genes were further validated through gene cloning and expression analysis. Anthocyanidin analysis in the F2 population revealed a positive correlation between total anthocyanidin content and flower color intensity. Notably, three major anthocyanidins of delphinidin (Dp), cyanidin (Cy), and petunidin (Pt) were detected in varying degrees of purple flowers, whereas no anthocyanidins were found in white flowers. In total, 33 QTLs associated with anthocyanidin content were identified, with two major QTLs located in linkage groups LG4 and LG5. Two candidate genes, CHS1 (a chalcone synthase) and TCP15 (a transcription factor), were identified in the genetic intervals of two major QTL sites, respectively. Preliminary verification experiments suggest that CHS1 may play a positive role in anthocyanidin biosynthesis, whereas TCP15 appears to potentially act as a negative regulator. This study provides a foundation for cloning genes controlling flower color and advances our understanding of the molecular mechanisms regulating flower color in S. miltiorrhiza.

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丹参花色素积累的QTL定位与候选基因鉴定。

丹参是一种观赏植物，以其多样的颜色而闻名，从白色到深紫色。为了阐明花色的调控机制，我们进行了QTL定位，并鉴定了与花青素积累有关的候选基因。采用pH差法和高效液相色谱法分别测定了丹参花冠中总花青素和6种花青素的含量。利用复合区间定位技术鉴定QTL，然后根据至少两种不同种植环境下的稳定QTL区间鉴定候选基因。这些候选基因通过基因克隆和表达分析得到进一步验证。花青素分析表明，总花青素含量与花的颜色强度呈正相关。值得注意的是，紫色花中不同程度地检测到飞鸽苷（Dp）、花青素（Cy）和矮牵牛花苷（Pt）三种主要的花青素，而白色花中未检测到花青素。共鉴定出33个与花青素含量相关的qtl，其中两个主要qtl位于连锁群LG4和LG5上。两个候选基因CHS1（查尔酮合成酶）和TCP15（转录因子）分别在两个主要QTL位点的遗传区间内被鉴定出来。初步验证实验表明，CHS1可能在花青素生物合成中发挥积极作用，而TCP15似乎可能发挥消极调节作用。该研究为花色调控基因的克隆奠定了基础，并促进了对丹参花色调控分子机制的认识。

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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来源期刊

Journal of Heredity 生物-遗传学

CiteScore

5.20

自引率

6.50%

发文量

审稿时长

6-12 weeks

期刊介绍： Over the last 100 years, the Journal of Heredity has established and maintained a tradition of scholarly excellence in the publication of genetics research. Virtually every major figure in the field has contributed to the journal. Established in 1903, Journal of Heredity covers organismal genetics across a wide range of disciplines and taxa. Articles include such rapidly advancing fields as conservation genetics of endangered species, population structure and phylogeography, molecular evolution and speciation, molecular genetics of disease resistance in plants and animals, genetic biodiversity and relevant computer programs.