四种常用药用菊花栽培品种叶绿体基因组的比较和系统发育分析。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-22 DOI:10.1186/s12870-024-05679-0
Yingying Duan, Yuqing Wang, Wanyue Ding, Chun Wang, Ling Meng, Jie Meng, Na Chen, Yaowu Liu, Shihai Xing
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引用次数: 0

摘要

亳菊 "和 "淮菊 "是菊科植物菊花(Chrysanthemum morifolium Ramat.)的栽培品种,具有药用、茶用和观赏价值,深受个人喜爱。然而,药用菊花的产量和质量受到种质资源特性的限制,包括品种和栽培水平的鉴定。目前,对药用菊花叶绿体基因组特征的研究相对有限。本研究对 "亳菊 "和 "淮菊 "这两个菊花栽培品种进行了叶绿体全基因组测序,并与之前发表的 "杭白菊 "和 "贡菊 "的叶绿体基因组进行了比较。该研究分析了这四种药用菊花的叶绿体基因组结构,确定了突变热点,明确了它们的系统发育关系。四种药用菊花栽培品种的叶绿体基因组大小为151,057至151,109 bp,GC含量为37.45%至37.76%。共鉴定出 134 个基因,包括 89 个蛋白质编码基因、37 个核糖体 RNA 基因和 8 个转运 RNA 基因。比较基因组分析显示,有 159 个大重复序列、276 个简单序列重复序列、1 个基因和 8 个基因间区被确定为高变异区。petN-psbM、trnR-UCU-trnT-GGU、trnT-GGU-psbD、ndhC-trnV-UCA、ycf1、ndhI-ndhG、trnL-UGA-rpl32、rpl32-ndhF 和 ndhF-ycf1 片段的核苷酸多样性(Pi)值较高(≥ 0.004),有助于品种鉴定。系统进化分析表明,最大似然法和贝叶斯推断树的结果一致,四个药用菊花栽培品种与野生品种和相关品种一起进化为一个单系群,与蒿属和枸杞属形成姊妹支系。在 6 个菊花物种中,野生菊花首先分化(后验概率 = 1,Bootstrap = 1,000),其次是蒿属菊花,而 C. indicum 和 C. morifolium 聚类在一起(Bootstrap = 100),表明它们的遗传关系最密切。本研究提供的叶绿体全基因组数据和特征信息可用于菊科植物的品种鉴定、遗传保护和系统发育分析。
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Comparative and phylogenetic analysis of the chloroplast genomes of four commonly used medicinal cultivars of Chrysanthemums morifolium.

'Boju' and 'Huaiju' are cultivars of the Chrysanthemum (Chrysanthemum morifolium Ramat.) in the family Asteraceae, valued for their medicinal, tea, and ornamental properties, and valued by individuals. However, the yield and quality of medicinal chrysanthemums are limited by the characteristics of the germplasm resources, including the identification at the varieties and cultivation levels. Currently, research characterizing the chloroplast genomes of medicinal Chrysanthemum flowers is relatively limited. This study conducted chloroplast whole-genome sequencing on two cultivars of Chrysanthemum, 'Boju' and 'Huaiju', and compared them with the previously published chloroplast genomes of 'Hangbaiju' and 'Gongju'. The study analyzed the chloroplast genome structures of these four medicinal Chrysanthemums, identifying mutation hotspots and clarifying their phylogenetic relationships. The chloroplast genome sizes of four medicinal Chrysanthemum cultivation products ranged from 151,057 to 151,109 bp, with GC content ranging from 37.45% to 37.76%. A total of 134 genes were identified, including 89 protein-coding genes, 37 ribosomal RNA genes, and 8 transfer RNA genes. Comparative genomic analysis revealed 159 large repeat sequences, 276 simple sequence repeats, 1 gene, and 8 intergenic regions identified as highly variable regions. Nucleotide diversity (Pi) values were high (≥ 0.004) for the petN-psbM, trnR-UCU-trnT-GGU, trnT-GGU-psbD, ndhC-trnV-UCA, ycf1, ndhI-ndhG, trnL-UGA-rpl32, rpl32-ndhF, and ndhF-ycf1 fragments, aiding in variety identification. Phylogenetic analysis revealed consistent results between maximum likelihood and Bayesian inference trees, showing that the four medicinal Chrysanthemum cultivars, along with their wild counterparts and related species, evolved as a monophyletic group, forming a sister clade to Artemisia and Ajania. Among the six Chrysanthemum species, the wild Chrysanthemum diverged first (Posterior probability = 1, bootstrap = 1,000), followed by Ajania, while C. indicum and C. morifolium clustered together (Bootstrap = 100), indicating their closest genetic relationship. The chloroplast whole-genome data and characteristic information provided in this study can be used for variety identification, genetic conservation, and phylogenetic analysis within the family Asteraceae.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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