Old Chinese garden roses are the foundation of the modern rose, which is one of the best-selling ornamental plants. However, the horticultural grouping and evolution of old Chinese garden roses are unclear. Simple sequence repeat (SSR) markers were employed to survey genetic diversity in old Chinese garden roses and genetic differentiation was estimated among different rose groups. Fluorescence in situ hybridization was used to study the physical localization of 5 S rDNA genes and a karyotype analysis was performed. The SSR data suggest that old Chinese garden roses could be divided into Old Blush group, Odorata group and Ancient hybrid China group. The Old Blush group had the most primitive karyotype. The Ancient hybrid China group and modern rose had the most evolved karyotypes and the highest genetic diversity. During the evolution of rose cultivars, 5 S rDNA increased in number, partially weakened in signal intensity and exhibited variation in distance from the centromere. In conclusion, rose cultivars evolved from the Old Blush Group to the Odorata group, the Ancient Hybrid China group and the modern rose. This work provides a basis for the collection, identification, conservation and innovation of rose germplasm resources.
展开▼
机译:中国古老的园林玫瑰是现代玫瑰的基础,而现代玫瑰是最畅销的观赏植物之一。但是,尚不清楚中国古老的花园玫瑰的园艺组合和演化。采用简单重复序列(SSR)标记调查中国老式园林玫瑰的遗传多样性,并评估不同玫瑰群之间的遗传分化。利用荧光原位杂交技术研究了5 S rDNA基因的物理定位,并进行了核型分析。 SSR数据表明,中国古老的园林玫瑰可分为“古老腮红”组,“无味”组和“古代杂交中国”组。老腮红组具有最原始的核型。古代杂种中国群体和现代玫瑰具有最进化的核型和最高的遗传多样性。在玫瑰品种的进化过程中,5 S rDNA的数量增加,信号强度部分减弱,并且距着丝粒的距离表现出差异。总之,玫瑰品种从Old Blush组发展到了Odorata组,Ancient Hybrid China组和现代玫瑰。这项工作为玫瑰种质资源的收集,鉴定,保存和创新提供了基础。
展开▼
