Liu Bin-Bin, Ren Chen, Kwak Myounghai, Hodel Richard G J, Xu Chao, He Jian, Zhou Wen-Bin, Huang Chien-Hsun, Ma Hong, Qian Guan-Ze, Hong De-Yuan, Wen Jun
State Key Laboratory of Systematic and Evolutionary Botany, Institute of Botany, the Chinese Academy of Sciences, Beijing, 100093, China.
Department of Botany, National Museum of Natural History, Smithsonian Institution, PO Box 37012, Washington, 20013-7012, DC, USA.
J Integr Plant Biol. 2022 May;64(5):1020-1043. doi: 10.1111/jipb.13246. Epub 2022 May 15.
Phylogenomic evidence from an increasing number of studies has demonstrated that different data sets and analytical approaches often reconstruct strongly supported but conflicting relationships. In this study, 785 single-copy nuclear genes and 75 complete plastomes were used to infer the phylogenetic relationships and estimate the historical biogeography of the apple genus Malus sensu lato, an economically important lineage disjunctly distributed in the Northern Hemisphere and involved in known and suspected hybridization and allopolyploidy events. The nuclear phylogeny recovered the monophyly of Malus s.l. (including Docynia); however, the genus was supported to be biphyletic in the plastid phylogeny. An ancient chloroplast capture event in the Eocene in western North America best explains the cytonuclear discordance. Our conflict analysis demonstrated that ILS, hybridization, and allopolyploidy could explain the widespread nuclear gene tree discordance. One deep hybridization event (Malus doumeri) and one recent event (Malus coronaria) were detected in Malus s.l. Furthermore, our historical biogeographic analysis integrating living and fossil data supported a widespread East Asian-western North American origin of Malus s.l. in the Eocene, followed by several extinction and dispersal events in the Northern Hemisphere. We also propose a general workflow for assessing phylogenomic discordance and biogeographic analysis using deep genome skimming data sets.
越来越多的系统发育基因组学研究证据表明,不同的数据集和分析方法常常会重建出支持度很高但相互冲突的关系。在本研究中,使用了785个单拷贝核基因和75个完整叶绿体基因组来推断苹果属广义苹果组(Malus sensu lato)的系统发育关系,并估计其历史生物地理学,该属是一个经济上重要的谱系,在北半球呈间断分布,涉及已知和疑似的杂交及异源多倍体事件。核基因系统发育分析恢复了广义苹果组(包括栘[木衣]属Docynia)的单系性;然而,在叶绿体系统发育分析中该属被支持为并系的。北美西部始新世的一次古老叶绿体捕获事件最能解释核质不一致性。我们的冲突分析表明,不完全谱系分选、杂交和异源多倍体可以解释广泛存在的核基因树不一致性。在广义苹果组中检测到一次古老的杂交事件(多花海棠Malus doumeri)和一次近期的杂交事件(冠状苹果Malus coronaria)。此外,我们整合现存和化石数据的历史生物地理学分析支持广义苹果组在始新世起源于东亚 - 北美西部并广泛分布,随后在北半球发生了几次灭绝和扩散事件。我们还提出了一个使用深度基因组浅层测序数据集评估系统发育基因组不一致性和生物地理学分析的通用工作流程。
