海棠科植物基因组大小和染色体数目变异的进化模式

Q2 Agricultural and Biological Sciences Edinburgh Journal of Botany Pub Date : 2022-08-18 DOI:10.24823/ejb.2022.1876
Lucia Campos-Domínguez, J. Pellicer, A. Matthews, I. Leitch, C. Kidner
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引用次数: 2

摘要

细胞学数据资源对于研究和理解复杂分类群的进化至关重要。最近对秋海棠属的研究为分析整个类群的进化模式提供了强有力的系统发育背景,并确定秋海棠在基因组大小和染色体数量上是可变的。本文概述了秋海棠属的基因组结构变异,并更新了该属的染色体数量和基因组大小数据集。在目前的分类学和系统发育背景下,介绍和讨论了400多个物种的染色体数量。与非洲相比,新热带和亚洲秋海棠切片的染色体数量数据集更完整。染色体数量在系统发育树中的分布支持秋海棠切片作为自然类群的观点,因为大多数变异是在切片之间而不是在切片内部发现的。一些较大的秋海棠分支被发现具有较大的染色体数量变异。此外,染色体数量变化最大的类群属于一些分类复杂或未解决的秋海棠部分。发现基因组大小的变化与染色体数量的变化无关。这表明,秋海棠基因组动力学不仅是由大规模重复、重排和倍性水平的变化引起的,还由基因组重复部分的变化引起,这可能会导致染色体大小的变化。这可能在物种辐射中发挥重要作用。
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EVOLUTIONARY PATTERNS OF GENOME SIZE AND CHROMOSOME NUMBER VARIATION IN BEGONIACEAE
Cytological data resources are crucial to the study and understanding of the evolution of complex taxa. Recent research on the genus Begonia L. has provided a robust phylogenetic background for the analysis of evolutionary patterns across the group and has established that Begonia is variable in genome size and chromosome number. This paper provides an overview of the genome structural variation present in Begonia and an updated chromosome number and genome size dataset for the genus. Chromosome numbers of more than 400 species are presented and discussed within their current taxonomic and phylogenetic context. A more complete chromosome number dataset is available for Neotropical and Asian Begonia sections than for those from Africa. The distribution of chromosome numbers across phylogenetic trees supports the idea of Begonia sections as natural groups, because most variation is found between sections rather than within them. Some larger Begonia clades were found to have larger  chromosome number variation. Moreover, groups with the most variable chromosome numbers belong to some of the taxonomically complex or unresolved Begonia sections. Genome size variation was found not to correlate with changes in chromosome number. It suggests that Begonia genome dynamics are caused not only by large-scale duplications, rearrangements, and changes in ploidy levels but also by changes in the repetitive fraction of the genome, which probably cause changes in chromosome size. This could potentially play an important role in species radiations.
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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%
发文量
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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