含有的完整叶绿体基因组序列的科物种与比较叶绿体基因组学和它们之间的系统发育关系。
Complete chloroplast genome sequences of Myristicaceae species with the comparative chloroplast genomics and phylogenetic relationships among them.
机构信息
Yunnan Institute of Tropical Crops, Xishuangbanna, China.
出版信息
PLoS One. 2023 Mar 20;18(3):e0281042. doi: 10.1371/journal.pone.0281042. eCollection 2023.
BACKGROUND
Myristicaceae was widly distributed from tropical Asia to Oceania, Africa, and tropical America. There are 3 genera and 10 species of Myristicaceae present in China, mainly distributed in the south of Yunnan Province. Most research on this family focuses on fatty acids, medicine, and morphology. Based on the morphology, fatty acid chemotaxonomy, and a few of molecular data, the phylogenetic position of Horsfieldia pandurifolia Hu was controversial.
RESULTS
In this study, the chloroplast genomes of two Knema species, Knema globularia (Lam.) Warb. and Knema cinerea (Poir.) Warb., were characterized. Comparing the genome structure of these two species with those of other eight published species, including three Horsfieldia species, four Knema species, and one Myristica species, it was found that the chloroplast genomes of these species were relatively conserved, retaining the same gene order. Through sequence divergence analysis, there were 11 genes and 18 intergenic spacers were subject to positive selection, which can be used to analyze the population genetic structure of this family. Phylogenetic analysis showed that all Knema species were clustered in the same group and formed a sister clade with Myristica species support by both high maximum likelihood bootstrap values and Bayesian posterior probabilities; among Horsfieldia species, Horsfieldia amygdalina (Wall.) Warb., Horsfieldia kingii (Hook.f.) Warb., Horsfieldia hainanensis Merr. and Horsfieldia tetratepala C.Y.Wu. were grouped together, but H. pandurifolia formed a single group and formed a sister clade with genus Myristica and Knema. Through the phylogenetic analysis, we support de Wilde' view that the H. pandurifolia should be separated from Horsfieldia and placed in the genus Endocomia, namely Endocomia macrocoma subsp. prainii (King) W.J.de Wilde.
CONCLUSION
The findings of this study provide a novel genetic resources for future research in Myristicaceae and provide a molecular evidence for the taxonomic classification of Myristicaceae.
背景
肉豆蔻科广泛分布于亚洲热带至大洋洲、非洲和热带美洲。中国有 3 属 10 种肉豆蔻科植物,主要分布于云南省南部。该科的研究主要集中在脂肪酸、药物和形态学方面。基于形态学、脂肪酸化学分类学和少量分子数据,对于霍氏肉豆蔻(Horsfieldia pandurifolia Hu)的系统发育位置存在争议。
结果
本研究对两种肉豆蔻属植物,球肉豆蔻(Knema globularia (Lam.) Warb.)和灰肉豆蔻(Knema cinerea (Poir.) Warb.)的叶绿体基因组进行了特征描述。将这两个物种的基因组结构与其他 8 个已发表物种(包括 3 种霍氏肉豆蔻、4 种肉豆蔻属和 1 种肉豆蔻属)进行比较,发现这些物种的叶绿体基因组相对保守,保留了相同的基因排列。通过序列分歧分析,有 11 个基因和 18 个内含子间隔区受到正选择,可用于分析该科的群体遗传结构。系统发育分析表明,所有的肉豆蔻属植物都聚集在同一组中,并与肉豆蔻属形成一个姐妹分支,这一结果得到了最大似然bootstrap 值和贝叶斯后验概率的支持;在霍氏肉豆蔻属中,霍氏肉豆蔻(Horsfieldia amygdalina (Wall.) Warb.)、霍氏肉豆蔻(Horsfieldia kingii (Hook.f.) Warb.)、海南霍氏肉豆蔻(Horsfieldia hainanensis Merr.)和四裂霍氏肉豆蔻(Horsfieldia tetratepala C.Y.Wu.)聚为一组,而霍氏肉豆蔻(H. pandurifolia)则形成了一个单独的分支,与肉豆蔻属和肉豆蔻属形成姐妹分支。通过系统发育分析,我们支持 de Wilde 的观点,即霍氏肉豆蔻(H. pandurifolia)应与霍氏肉豆蔻属分开,并归入 Endocomia 属,即大苞肉豆蔻(Endocomia macrocoma subsp. prainii (King) W.J.de Wilde)。
结论
本研究为肉豆蔻科的未来研究提供了新的遗传资源,并为肉豆蔻科的分类学提供了分子证据。
Zotero 插件