多染色体进化过程导致的缬草复合体基因组大小的变异

IF 4.4 2区 生物学 Q1 PLANT SCIENCES
Preslia Pub Date : 2017-02-01 DOI:10.23855/PRESLIA.2017.041
S. Bressler, Valerie Klatte-Asselmeyer, A. Fischer, Juraj Paule, C. Dobeš
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引用次数: 12

摘要

多倍体、非整倍体和单倍体基因组或染色体DNA含量的变化是基因组大小变化的主要原因。我们在中欧的缬草复合体种群中研究了这些现象,以确定驱动其进化的机制或力量。该复合体包括二倍体、四倍体和八倍体,在形态上定义了所谓的分类学“类型”。研究区内还存在中间“过渡类型”,其存在妨碍了传统分类概念的应用。因此,我们选择AFLP基因分型和混合分析来鉴定所研究材料的遗传结构。二倍性(2x)、四倍性(4x)和八倍性(8x)为主要倍性水平。主要遗传集群大致对应于这些倍性水平(对于K = 2: 2x和8x集群,对于K = 4几乎相同的概率:鉴定出2x-, 4x-, 8x和非特异性集群),单倍体绝对基因组大小进一步显著差异(2x的平均1Cx = 1.48 pg, 4x 1.29 pg, 8x 1.10 pg)。所有倍性水平的几个个体都是混合的,特别是四倍体。相对基因组大小(样本:标准DAPI荧光)与四倍体共享二倍体遗传簇的比例呈正相关,表明杂交引起了基因组大小的变化。这一结果与四倍体基因组大小与其与二倍体的地理距离呈显著负相关是一致的。然而,在所有倍性水平上,相对基因组大小的倍性内差异显著(二倍体为1.14倍,四倍体为1.28倍,八倍体为1.19倍)。我们发现非整倍性是二倍体和四倍体基因组大小变异的另一个来源。在二倍体中,额外染色体对绝对基因组大小的贡献超过了在整倍体中观察到的变异,而在整四倍体中记录的基因组大小的常规变异中包含了额外染色体。在多倍体中记录到单倍体基因组大小的变异,而在二倍体中没有,这表明多倍体在其基因组的进化中经历了更高的动力学。最后,38.0 ~ 63.2%的相对基因组大小倍性变异发生在群体内。综上所述,缬草复合体提供了一个基因组大小变化的例子,这是由四种主要的进化力量引起的:多倍体化、染色体数目和染色体DNA含量的变化以及(次级)杂交,但它们的相对重要性在不同的倍性水平上有所不同。虽然单倍体基因组大小的稳定性在物种中被认为是标准的情况,但我们发现在种群中存在很大的变异性,这表明即使在狭义的分类群中,基因组大小也是可变的。中国农业大学学报(自然科学版)39 (4):481 - 481,2017
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Variation in genome size in the Valeriana officinalis complex resulting from multiple chromosomal evolutionary processes
Polyploidy, aneuploidy and change in DNA content of monoploid genomes or chromosomes are the principal causes of the variation in genome size. We studied these phenomena in central-European populations of the Valeriana officinalis complex in order to identify mechanisms or forces driving its evolution. The complex comprises di-, tetraand octoploid morphologically defined so-called taxonomic “types”. Within the study area there are also intermediate “transitional types” the existence of which hampers the application of traditional taxonomic concepts. We thus chose AFLP genotyping and admixture analyses to identify the genetic structuring of the material studied. Di(2x), tetra-(4x) and octoploidy (8x) were confirmed as major ploidy levels. Major genetic clusters roughly corresponded to these ploidy levels (for K = 2: 2xand 8x-clusters, for K = 4 with nearly identical probability: 2x-, 4x-, 8xand unspecific clusters were identified), which further more significantly differed from each other in monoploid absolute genome size (mean 1Cx for 2x = 1.48 pg, 4x 1.29 pg, 8x 1.10 pg). Several individuals of all ploidy levels were admixed, particularly tetraploids. Relative genome size (the sample: standard DAPI fluorescence) was positively correlated with the proportion of the diploid genetic cluster shared by the tetraploids, indicating that hybridization caused the variation in genome size. This result is in accordance with the significant negative correlation of the genome size of tetraploids with their geographic distance to the diploids. However, remarkable intra-ploidy variation in relative genome size was recorded for all ploidy levels (1.14-fold in diploids, 1.28-fold in tetraploids, 1.19-fold in octoploids). We identified aneuploidy as an additional source of variation in genome size in the diand tetraploids. The contribution of extra chromosomes to absolute genome size exceeded the observed variation within euploids in the diploids, whereas it was included in the regular variability in genome size recorded for the eutetraploids. Variation in monoploid genome size was recorded in polyploids but not in diploids, indicating that polyploids experienced higher dynamics in the evolution of their genomes. Finally, 38.0–63.2% of the total intra-ploidy variation in relative genome size occurred within populations. In conclusion, the Valeriana officinalis complex provides an example of variation in genome size due to four principal evolutionary forces: polyploidization, change in chromosome number and in DNA content of chromosomes and (secondarily) hybridization, but their relative importance differed among ploidy levels. Although the stability in the size of the monoploid genome in species is considered to be the standard case, we found great variability within populations suggesting that genome size is variable even within narrowly defined taxa. Preslia 89: 41–61, 2017 41
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来源期刊
Preslia
Preslia 生物-植物科学
CiteScore
5.20
自引率
29.40%
发文量
8
审稿时长
>12 weeks
期刊介绍: Preslia is a peer-reviewed scientific journal publishing original research papers on plant systematics, morphology, phytogeography, ecology and vegetation science, with a geographical focus on central Europe. The journal was founded in 1914 and named in honour of brothers Jan Svatopluk Presl (1791–1849) and Karel Bořivoj Presl (1794–1852), outstanding Bohemian botanists. It is published quarterly by the Czech Botanical Society.
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