Phylogeny of Trigonotis in China—with a special reference to its nutlet morphology and plastid genome

IF 4.6 1区 生物学 Q1 PLANT SCIENCES Plant Diversity Pub Date : 2023-07-01 DOI:10.1016/j.pld.2023.03.004
Xue-Min Xu , Dan-Hui Liu , Shi-Xin Zhu , Zhen-Long Wang , Zhen Wei , Quan-Ru Liu
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引用次数: 2

Abstract

The genus Trigonotis comprises nearly 60 species mainly distributed in East and Southeast Asia. China has the largest number of Trigonotis species in the world, with a total of 44 species, of which 38 are endemic. Nutlet morphology is useful for the taxonomic delimitation of Trigonotis. However, there are still controversial circumscriptions of nutlet shape in some species. In previous studies, interspecies phylogenetic relationships were inferred using few DNA markers and very few taxa, which possibly led to erroneous or incomplete conclusions. In this study, the nutlet morphology of 39 Trigonotis taxa and the characteristics of 34 complete chloroplast genomes (29 taxa) were investigated and analyzed. Then, the phylogenetic relationships were discussed within this genus based on complete chloroplast genomes. To the best of our knowledge, this study is the first comprehensive analysis of nutlet morphology and complete chloroplast genome of Trigonotis. Based on nutlet morphology, Trigonotis can be divided into two groups: Group 1, hemispherical or oblique tetrahedron with carpopodiums, and Group 2, inverted tetrahedron without carpopodiums. The chloroplast genome of Trigonotis exhibited a typical quadripartite structure, including 84–86 protein-coding, 37 transfer RNA, and 8 ribosomal RNA genes, with a total length of 147,247–148,986 bp. Genes in the junctions were well conserved in Trigonotis, similar to those in other Boraginaceae s.str. species. Furthermore, Trigonotis chloroplast genomes showed relatively high diversity, with more conserved genic regions than intergenic regions; in addition, we detected 14 hot spots (Pi > 0.005) in non-coding regions. Phylogenetic analyses based on chloroplast genome data identified highly resolved relationships between Trigonotis species. Specifically, Trigonotis was divided into two clades with strong support: one clade included species with hemispherical or oblique tetrahedron nutlets with carpopodiums and bracts, whereas the other clade included species with inverted tetrahedron nutlets without carpopodiums or bracts. Our results may inform future taxonomic, phylogenetic, and evolutionary studies on Boraginaceae.

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中国三角果属植物的系统发育——以其坚果形态和质体基因组为例
Trigonotis属有近60种,主要分布在东亚和东南亚。中国是世界上三角杉种类最多的国家,共有44种,其中特有种38种。坚果形态对三角果属植物的分类划分有重要意义。然而,在一些物种中,对坚果形状的限制仍然存在争议。在以往的研究中,通过很少的DNA标记和很少的分类群来推断种间系统发育关系,这可能导致错误或不完整的结论。本研究对39个三角杉分类群的坚果形态和29个分类群34个完整叶绿体基因组的特征进行了调查和分析。然后,基于完整的叶绿体基因组,讨论了该属的系统发育关系。据我们所知,本研究首次全面分析了三角杉的坚果形态和完整的叶绿体基因组。根据坚果形态,三角果可分为两类:一类是半球形或斜四面体,有果柄;二类是倒四面体,没有果柄。三角杉叶绿体基因组具有典型的四部结构,包括84 ~ 86个蛋白质编码基因、37个转移RNA基因和8个核糖体RNA基因,总长度为147,247 ~ 148,986 bp。与其他琉璃苣科植物相似,琉璃苣属植物连接处的基因保守性较好。物种。此外,三角杉叶绿体基因组表现出较高的多样性,基因保守区多于基因间区;此外,我们还检测到14个热点(Pi >0.005)。基于叶绿体基因组数据的系统发育分析确定了三角杉种之间高度确定的关系。具体来说,三角果属被划分为两个支系,其中一个支系包括具有半球形或斜四面体坚果、果柄和苞片的物种,而另一个支系包括具有倒四面体坚果、但没有果柄和苞片的物种。本研究结果可为今后琉璃苣科植物的分类、系统发育和进化研究提供参考。
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来源期刊
Plant Diversity
Plant Diversity Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
8.30
自引率
6.20%
发文量
1863
审稿时长
35 days
期刊介绍: Plant Diversity (formerly Plant Diversity and Resources) is an international plant science journal that publishes substantial original research and review papers that advance our understanding of the past and current distribution of plants, contribute to the development of more phylogenetically accurate taxonomic classifications, present new findings on or insights into evolutionary processes and mechanisms that are of interest to the community of plant systematic and evolutionary biologists. While the focus of the journal is on biodiversity, ecology and evolution of East Asian flora, it is not limited to these topics. Applied evolutionary issues, such as climate change and conservation biology, are welcome, especially if they address conceptual problems. Theoretical papers are equally welcome. Preference is given to concise, clearly written papers focusing on precisely framed questions or hypotheses. Papers that are purely descriptive have a low chance of acceptance. Fields covered by the journal include: plant systematics and taxonomy- evolutionary developmental biology- reproductive biology- phylo- and biogeography- evolutionary ecology- population biology- conservation biology- palaeobotany- molecular evolution- comparative and evolutionary genomics- physiology- biochemistry
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