杏属(Hydrocotyle)的质体结构和系统发育关系:提供有关杏属(Hydrocotyle)质体进化的见解。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Jun Wen, Bao-Cheng Wu, Hui-Min Li, Wei Zhou, Chun-Feng Song
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引用次数: 0

摘要

背景:Hydrocotyle Tourn.以前的研究主要集中在单独的部分,并提供了很多关于该属的信息,但其属下关系仍然混乱。此外,人们对其适应性进化的遗传基础仍然知之甚少。为了研究该属的系统发育和进化,我们选择了 10 个具有代表性的物种,它们覆盖了三个多样性分布中心中的两个,并表现出丰富的形态多样性。我们进行了比较质体分析,以明确 Hydrocotyle 质体的结构特征。正选择分析用于评估该属的进化。此外,还利用 Hydrocotyle 和 17 个相关物种的蛋白质编码序列(CDS)进行了系统发育推断:结果:Hydrocotyle 的质粒在结构、基因顺序和大小方面总体上比较保守。共有 14 个区域(rps16-trnK、trnQ-rps16、atpI-atpH、trnC-petN-psbM、ycf3-trnS、accD-psaI-ycf4、petA-psbJ、rps12-rpl20、rpl16 内含子、rps3-rpl16 内含子、rps9-rpl22、ndhF-rpl32、ndhA内含子和 ycf1a)被认为是该属的热点区域,有望成为对 Hydrocotyle 进行全球系统进化分析的 DNA 条形码。ycf15 基因被认为是 Hydrocotyle 种的蛋白质编码基因,可用作鉴定 Hydrocotyle 的 DNA 条形码。在系统进化分析中,发现了三个单系支系(支系Ⅰ、Ⅱ、Ⅲ),支系Ⅰ内存在快速辐射物种的证据。选择压力分析发现,Hydrocotyle物种的六个CDS基因(ycf1b、matK、atpF、accD、rps14和psbB)处于正选择状态。在该属中,后四个基因是保守基因,这表明该属与 Apiales 中的独特进化有关。有 7 个基因(atpE、matK、psbH、ycf1a、ycf1b、rpoA 和 ycf2)在 Hydrocotyle 属中的不同类群中受到一定程度的正选择,表明它们在物种适应性进化中的作用:结论:我们的研究为Hydrocotyle的系统发育和适应性进化提供了新的见解。质体序列可大大提高系统发育的分辨率,并为该属今后的研究提供有用的基因组资源和潜在的 DNA 标记。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plastome structure and phylogenetic relationships of genus Hydrocotyle (apiales): provide insights into the plastome evolution of Hydrocotyle.

Background: The genus Hydrocotyle Tourn. ex L. is a key group for further study on the evolution of Apiales, comprising around 170 species globally. Previous studies mainly focused on separate sections and provided much information about this genus, but its infrageneric relationships are still confusing. In addition, the genetic basis of its adaptive evolution remains poorly understood. To investigate the phylogeny and evolution of the genus, we selected ten representative species covering two of three diversity distribution centers and exhibiting rich morphology diversity. Comparative plastome analysis was conducted to clarify the structural character of Hydrocotyle plastomes. Positive selection analyses were implemented to assess the evolution of the genus. Phylogenetic inferences with protein-coding sequences (CDS) of Hydrocotyle and 17 related species were also performed.

Results: Plastomes within Hydrocotyle were generally conservative in structure, gene order, and size. A total of 14 regions (rps16-trnK, trnQ-rps16, atpI-atpH, trnC-petN-psbM, ycf3-trnS, accD-psaI-ycf4, petA-psbJ, rps12-rpl20, rpl16 intron, rps3-rpl16 intron, rps9-rpl22, ndhF-rpl32, ndhA intron, and ycf1a) were recognized as hotspot regions within the genus, which suggested to be promising DNA barcodes for global phylogenetic analysis of Hydrocotyle. The ycf15 gene was suggested to be a protein-coding gene for Hydrocotyle species, and it could be used as a DNA barcode to identify Hydrocotyle. In phylogenetic analysis, three monophyletic clades (Clade I, II, III) were identified with evidence of rapid radiation speciation within Clade I. The selective pressure analysis detected that six CDS genes (ycf1b, matK, atpF, accD, rps14, and psbB) of Hydrocotyle species were under positive selection. Within the genus, the last four genes were conservative, suggesting a relation to the unique evolution of the genus in Apiales. Seven genes (atpE, matK, psbH, ycf1a, ycf1b, rpoA, and ycf2) were detected to be under some degree of positive selection in different taxa within the genus Hydrocotyle, indicating their role in the adaptive evolution of species.

Conclusions: Our study offers new insights into the phylogeny and adaptive evolution of Hydrocotyle. The plastome sequences could significantly enhance phylogenetic resolution and provide genomic resources and potential DNA markers useful for future studies of the genus.

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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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