Sheng-Yuan Qin, Kai Chen, Wen-Ju Zhang, Xiao-Guo Xiang, Zheng-Yu Zuo, Cen Guo, Yao Zhao, Lin-Feng Li, Yu-Guo Wang, Zhi-Ping Song, Ji Yang, Xiao-Qiang Yang, Jian Zhang, Wei-Tao Jin, Qiang Wen, Song-Zi Zhao, Jia-Kuan Chen, De-Zhu Li, Jun Rong
{"title":"Phylogenomic insights into the reticulate evolution of Camellia sect. Paracamellia Sealy (Theaceae)","authors":"Sheng-Yuan Qin, Kai Chen, Wen-Ju Zhang, Xiao-Guo Xiang, Zheng-Yu Zuo, Cen Guo, Yao Zhao, Lin-Feng Li, Yu-Guo Wang, Zhi-Ping Song, Ji Yang, Xiao-Qiang Yang, Jian Zhang, Wei-Tao Jin, Qiang Wen, Song-Zi Zhao, Jia-Kuan Chen, De-Zhu Li, Jun Rong","doi":"10.1111/jse.12948","DOIUrl":null,"url":null,"abstract":"<p>Polyploids are common in <i>Camellia</i> sect. <i>Paracamellia</i>, which contain many important oil crop species. However, their complex evolutionary history is largely unclear. In this study, 22 transcriptomes and 19 plastomes of related species of <i>Camellia</i> were sequenced and assembled, providing the most completed taxa sampling of <i>Camellia</i> sect. <i>Oleifera</i> and <i>C</i>. sect. <i>Paracamellia</i>. Phylogenetic trees were reconstructed with predicted single-copy nuclear genes and plastomes. Phylogenetic trees with nuclear genes demonstrated that <i>C</i>. sect. <i>Oleifera</i> should be merged into <i>C</i>. sect. <i>Paracamellia</i>. Cytonuclear discordance and network analyses suggested hybridizations among polyploid species and relatives. The divergence of major clades in <i>C</i>. sect. <i>Paracamellia</i> was dated to be during the middle to late Miocene from the ancestral Lingnan region, and a rapid diversification during the Quaternary was found, probably through hybridization and polyploidization. The tetraploid <i>Camellia meiocarpa</i> Hu may have originated from hybridization between closely related diploid species. The hexaploid <i>Camellia oleifera</i> C. Abel probably originated from hybridization between closely related diploid and tetraploid (e.g., <i>C. meiocarpa</i>) species. The octoploid <i>Camellia vietnamensis</i> T. C. Huang ex Hu could have originated from hybridization between hexaploid <i>C. oleifera</i> and the closely related diploid species. Hybridization and polyploidization played an important role in generating the rich variation of important fruit traits, especially increased fruit size in polyploid species.</p>","PeriodicalId":17087,"journal":{"name":"Journal of Systematics and Evolution","volume":null,"pages":null},"PeriodicalIF":3.7000,"publicationDate":"2023-01-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Systematics and Evolution","FirstCategoryId":"1089","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/jse.12948","RegionNum":1,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}
引用次数: 0
Abstract
Polyploids are common in Camellia sect. Paracamellia, which contain many important oil crop species. However, their complex evolutionary history is largely unclear. In this study, 22 transcriptomes and 19 plastomes of related species of Camellia were sequenced and assembled, providing the most completed taxa sampling of Camellia sect. Oleifera and C. sect. Paracamellia. Phylogenetic trees were reconstructed with predicted single-copy nuclear genes and plastomes. Phylogenetic trees with nuclear genes demonstrated that C. sect. Oleifera should be merged into C. sect. Paracamellia. Cytonuclear discordance and network analyses suggested hybridizations among polyploid species and relatives. The divergence of major clades in C. sect. Paracamellia was dated to be during the middle to late Miocene from the ancestral Lingnan region, and a rapid diversification during the Quaternary was found, probably through hybridization and polyploidization. The tetraploid Camellia meiocarpa Hu may have originated from hybridization between closely related diploid species. The hexaploid Camellia oleifera C. Abel probably originated from hybridization between closely related diploid and tetraploid (e.g., C. meiocarpa) species. The octoploid Camellia vietnamensis T. C. Huang ex Hu could have originated from hybridization between hexaploid C. oleifera and the closely related diploid species. Hybridization and polyploidization played an important role in generating the rich variation of important fruit traits, especially increased fruit size in polyploid species.
多倍体在山茶科中很常见。多倍体在山茶科(Paracamellia)中很常见,其中包含许多重要的油料作物品种。然而,它们复杂的进化历史在很大程度上并不清楚。本研究对山茶科相关物种的 22 个转录组和 19 个质粒组进行了测序和组装,为山茶科油茶属(C. sect.Oleifera和C.Paracamellia。利用预测的单拷贝核基因和质粒重建了系统发生树。核基因的系统发生树表明,C. sect.Oleifera 应并入 C. sect.Paracamellia.细胞核不一致性和网络分析表明多倍体物种和近缘种之间存在杂交。C. sect.山茶科主要支系的分化年代为中新世中晚期,从祖先岭南地区分化而来,在第四纪期间迅速分化,可能是通过杂交和多倍体化实现的。四倍体山茶花 meiocarpa Hu 可能起源于近缘二倍体物种之间的杂交。六倍体山茶(C. oleifera C. Abel)可能起源于近缘二倍体和四倍体(如 C. meiocarpa)物种之间的杂交。八倍体 Camellia vietnamensis T. C. Huang ex Hu 可能起源于六倍体 C. oleifera 与近缘二倍体物种的杂交。杂交和多倍体在产生重要果实性状的丰富变异中发挥了重要作用,尤其是在多倍体物种中果实体积增大。
期刊介绍:
Journal of Systematics and Evolution (JSE, since 2008; formerly Acta Phytotaxonomica Sinica) is a plant-based international journal newly dedicated to the description and understanding of the biological diversity. It covers: description of new taxa, monographic revision, phylogenetics, molecular evolution and genome evolution, evolutionary developmental biology, evolutionary ecology, population biology, conservation biology, biogeography, paleobiology, evolutionary theories, and related subjects.
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