New estimates and synthesis of chromosome numbers, ploidy levels and genome size variation in Allium sect. Codonoprasum: advancing our understanding of the unresolved diversification and evolution of this section.

IF 3.4 3区生物学 Q1 Agricultural and Biological Sciences

Botanical Studies Pub Date : 2024-12-24 DOI:10.1186/s40529-024-00446-8

Lucie Kobrlová, Michaela Jandová, Kateřina Vojtěchová, Lenka Šafářová, Martin Duchoslav

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引用次数: 0

Abstract

Background: The genus Allium is known for its high chromosomal variability, but most chromosome counts are based on a few individuals and genome size (GS) reports are limited in certain taxonomic groups. This is evident in the Allium sect. Codonoprasum, a species-rich (> 150 species) and taxonomically complex section with weak morphological differences between taxa, the presence of polyploidy and frequent misidentification of taxa. Consequently, a significant proportion of older karyological reports may be unreliable and GS data are lacking for the majority of species within the section. This study, using chromosome counting and flow cytometry (FCM), provides the first comprehensive and detailed insight into variation in chromosome number, polyploid frequency and distribution, and GS in section members, marking a step towards understanding the unresolved diversification and evolution of this group.

Results: We analysed 1578 individuals from 316 populations of 25 taxa and reported DNA ploidy levels and their GS, with calibration from chromosome counts in 22 taxa. Five taxa had multiple ploidy levels. First estimates of GS were obtained for 16 taxa. A comprehensive review of chromosome number and DNA-ploidy levels in 129 taxa of the section revealed that all taxa have x = 8, except A. rupestre with two polyploid series (x = 8, descending dysploidy x = 7), unique for this section. Diploid taxa dominated (72.1%), while di- & polyploid (12.4%) and exclusively polyploid (15.5%) taxa were less common. Ploidy diversity showed that diploid taxa dominated in the eastern Mediterranean and decreased towards the west and north, whereas only polyploid cytotypes of di- & polyploid taxa or exclusively polyploid taxa dominated in northern and northwestern Europe. A 4.1-fold variation in GS was observed across 33 taxa analysed so far (2C = 22.3-92.1 pg), mainly due to polyploidy, with GS downsizing observed in taxa with multiple ploidy levels. Intra-sectional GS variation suggests evolutionary relationships, and intraspecific GS variation within some taxa may indicate taxonomic heterogeneity and/or historical migration patterns.

Conclusions: Our study showed advantages of FCM as an effective tool for detecting ploidy levels and determining GS within the section. GS could be an additional character in understanding evolution and phylogenetic relationships within the section.

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葱组染色体数目、倍性水平和基因组大小变异的新估计和合成：促进我们对该组未解决的多样化和进化的理解。

背景：Allium属以其高染色体变异性而闻名，但大多数染色体计数是基于少数个体和基因组大小（GS）报告在某些分类类群中是有限的。这在Allium sect. Codonoprasum中表现得尤为明显，这是一个物种丰富（约150种）且分类复杂的部门，其分类群之间的形态差异较小，存在多倍体，分类群经常被误认。因此，很大一部分较早的核学报告可能是不可靠的，并且该剖面内大多数物种缺乏GS数据。本研究利用染色体计数和流式细胞术（FCM），首次全面而详细地了解了染色体数目、多倍体频率和分布以及GS在切片成员中的变化，标志着对该群体未解决的多样化和进化的理解迈出了一步。结果：分析了来自25个类群316个居群的1578个个体，报告了DNA倍性水平和GS，并根据22个类群的染色体计数进行了校准。5个类群存在多个倍性水平。对16个分类群的GS进行了初步估计。对该组129个分类群的染色体数目和dna倍性水平进行综合分析，发现除芦花有2个多倍体系列（x = 8，下降异倍体x = 7）外，其余分类群均有x = 8，为该组所特有。二倍体占主导地位（72.1%），二多倍体占12.4%，纯多倍体占15.5%。倍性多样性表明，地中海东部以二倍体为主，向西和向北逐渐减少，而欧洲北部和西北部仅以二倍体和多倍体为主或仅以多倍体为主。到目前为止，在33个分类群中观察到GS的4.1倍变异（2C = 22.3-92.1 pg），主要是由于多倍性，并且在多个倍性水平的分类群中观察到GS的缩小。段内GS变异提示进化关系，种内GS变异提示分类异质性和历史迁移模式。结论：本研究显示了FCM作为检测倍性水平和测定剖面GS的有效工具的优势。GS可以作为理解该剖面中进化和系统发育关系的一个额外特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Botanical Studies 生物-植物科学

CiteScore

5.50

自引率

2.90%

发文量

审稿时长

2.4 months

期刊介绍： Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.