INSIGHTS INTO THE EVOLUTION OF THE CHLOROPLAST GENOME AND THE PHYLOGENY OF BEGONIA

Q2 Agricultural and Biological Sciences Edinburgh Journal of Botany Pub Date : 2022-08-18 DOI:10.24823/ejb.2022.408
Y. Tseng, Chia-Lun Hsieh, Lucia Campos-Domínguez, A. Hu, Chiung-Chih Chang, Yu-Ting Hsu, C. Kidner, M. Hughes, P. Moonlight, Cheng-Hsiang Hung, Yen-Chiao Wang, Yi-Tse Wang, Shih‐Hui Liu, D. Girmansyah, Kuo-Fang Chung
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引用次数: 3

Abstract

Begonia (Begoniaceae) is one of the largest angiosperm genera, comprising more than 2000 species; this makes it ideal as a model to investigate the genomic basis of species radiations. Here we present the results of the first genus-wide comparative study of plastid genome structure, sequence diversity, and phylogenetics of Begoniaceae, in which 44 complete Begoniaceae plastomes, including those of Begonia’s sister group, Hillebrandia, a monotypic genus endemic to Hawai‘i, and 43 species representing 42 sections of Begonia, were assembled. Our results reveal that Begoniaceae plastome size ranges from 167,123 to 170,852 bp, displaying the typical quadripartite structure. Structures of most Begoniaceae plastomes are highly conserved but differ from the plastomes of the majority of angiosperms in having a unique inverted repeat (IR) expansion, from IRa to large single copy (LSC), resulting from a duplicated fragment of the trnH–GUG gene to the trnR–UCU gene. Additionally, comparison between plastomes of Hillebrandia and Begonia shows that the former genus has fewer simple sequence repeats than most Begonia species analysed, suggesting that species of Begonia have more repetitive and dynamic plastomes than those of its sister genus. We also identified six highly variable regions suitable for phylogenetic analysis and as potential DNA barcodes for species identification. Our robust hypothesis of plastome phylogenomic relationships provides new insights into infrageneric classification and highlights potential classification issues in Begonia. 
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秋海棠叶绿体基因组进化与系统发育的新认识
秋海棠属(秋海棠科)是被子植物中最大的属之一,共有2000多种;这使得它成为研究物种辐射基因组基础的理想模型。在这里,我们介绍了秋海棠科质体基因组结构、序列多样性和系统发育学的首次全属比较研究的结果,其中组装了44个完整的秋海棠科叶绿体,包括秋海棠的姐妹群Hillebrandia,夏威夷特有的单型属,以及代表秋海棠42个部分的43个物种。我们的结果表明,秋海棠科的质体大小在167123到170852bp之间,显示出典型的四方结构。大多数秋海棠科质体的结构是高度保守的,但与大多数被子植物的质体不同的是,它们具有独特的反向重复(IR)扩增,从IRa到大单拷贝(LSC),这是由trnH–GUG基因到trnR–UCU基因的重复片段产生的。此外,Hillebrandia和秋海棠的质体之间的比较表明,前者的简单序列重复次数少于所分析的大多数秋海棠物种,这表明秋海棠物种比其姐妹属的质体具有更多的重复和动态质体。我们还确定了六个高度可变的区域,适合进行系统发育分析,并作为物种识别的潜在DNA条形码。我们对质体系统发育关系的有力假设为下属分类提供了新的见解,并突出了秋海棠潜在的分类问题。
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来源期刊
Edinburgh Journal of Botany
Edinburgh Journal of Botany Agricultural and Biological Sciences-Plant Science
自引率
0.00%
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22
期刊介绍: Edinburgh Journal of Botany is an international journal of plant systematics covering related aspects of biodiversity, conservation science and phytogeography for plants and fungi. The journal is a particularly valued forum for research on South East and South West Asian, Sino-Himalayan and Brazilian biodiversity. The journal also publishes important work on European, Central American and African biodiversity and encourages submissions from throughout the world. Commissioned book reviews are also included. All papers are peer reviewed and an international editorial board provides a body of expertise to reflect the wide range of work published and the geographical spread of the journal’s authors and readers. Published on behalf of the Royal Botanic Garden Edinburgh
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