泽泻的基因组和块状分段分析揭示了其不同的苞片色素沉着

IF 4.6 4区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY aBIOTECH Pub Date : 2022-10-06 DOI:10.1007/s42994-022-00081-6
Xuezhu Liao, Yuanjun Ye, Xiaoni Zhang, Dan Peng, Mengmeng Hou, Gaofei Fu, Jianjun Tan, Jianli Zhao, Rihong Jiang, Yechun Xu, Jinmei Liu, Jinliang Yang, Wusheng Liu, Luke R. Tembrock, Genfa Zhu, Zhiqiang Wu
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引用次数: 5

摘要

与大多数花相比,在大多数花中,艳丽的部分包括直接对着生殖结构的特化叶(花瓣),大多数姜科物种通过对整个花序中对着真花的叶(苞片)进行修饰来产生艳丽的“花”。泽泻姜黄属于姜科,是一种原产于东南亚的植物,由于其在不同品种中产生的多样且美观的苞片,在全球花卉市场上越来越受欢迎。在这里,我们介绍了泽泻“清迈粉”的染色体规模基因组组装,并探索了苞片色素沉着的潜在机制。比较基因组分析显示泽泻含有全基因组复制的残余信号。重复基因,包括色素相关基因,表现出功能和结构分化,导致泽泻品种的苞片颜色不同。此外,我们通过进行转录组学分析、利用DNA和RNA数据的扩增片段分析以及群体基因组分析,确定了泽泻中产生不同颜色苞片的关键基因,如F3′5′H、DFR、ANS和花青素合成的几种转录因子,以及叶绿素合成途径中的chlH和CAO。这项工作为理解苞片色素沉着的机制提供了数据,并将加速泽泻及其相关物种开发具有丰富苞片颜色的新品种。了解姜科植物进化过程中的变异也很重要。
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The genomic and bulked segregant analysis of Curcuma alismatifolia revealed its diverse bract pigmentation

Compared with most flowers where the showy part comprises specialized leaves (petals) directly subtending the reproductive structures, most Zingiberaceae species produce showy “flowers” through modifications of leaves (bracts) subtending the true flowers throughout an inflorescence. Curcuma alismatifolia, belonging to the Zingiberaceae family, a plant species originating from Southeast Asia, has become increasingly popular in the flower market worldwide because of its varied and esthetically pleasing bracts produced in different cultivars. Here, we present the chromosome-scale genome assembly of C. alismatifolia “Chiang Mai Pink” and explore the underlying mechanisms of bract pigmentation. Comparative genomic analysis revealed C. alismatifolia contains a residual signal of whole-genome duplication. Duplicated genes, including pigment-related genes, exhibit functional and structural differentiation resulting in diverse bract colors among C. alismatifolia cultivars. In addition, we identified the key genes that produce different colored bracts in C. alismatifolia, such as F3′5'H, DFR, ANS and several transcription factors for anthocyanin synthesis, as well as chlH and CAO in the chlorophyll synthesis pathway by conducting transcriptomic analysis, bulked segregant analysis using both DNA and RNA data, and population genomic analysis. This work provides data for understanding the mechanism of bract pigmentation and will accelerate breeding in developing novel cultivars with richly colored bracts in C. alismatifolia and related species. It is also important to understand the variation in the evolution of the Zingiberaceae family.

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