[基于多位点核标记(AFLP)的冷杉(冷杉属,松科)系统发育]。

Genetika Pub Date : 2016-11-01
S A Semerikova, V L Semerikov
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引用次数: 0

摘要

为了研究冷杉属植物的系统发育关系、进化历史和分子系统学,采用核多位点标记扩增片段长度多态性(AFLP)对冷杉属植物进行了系统发育重建。利用7种选择性引物组合,对39个分类群84份样品的553个AFLP多态性位点进行了基因分型。与我们之前对该属的叶绿体和线粒体系统发育的比较(2014年)表明,核系统发育通常与叶绿体树更一致。在AFLP树中也支持叶绿体系统发育所解析的大多数支系。利用基于核dna的树,我们揭示了新群体的存在和几个分支拓扑结构的差异。AFLP证实了Balsamea组亚洲种的单系性及其与该组美洲种群的姊妹位置。从叶绿体DNA图谱可以看出,凤梨科亚洲种不属于单系类群,而属于亚洲种的多数分支。系统发育上线粒体DNA数据在很大程度上与核和叶绿体DNA树不一致,而更符合物种的地理分布。分析了核系统发育与细胞质系统发育之间的矛盾。考虑到这些因素,我们考虑了特定的冷杉类群的杂交起源假说,包括Balsamea区的古代杂交。讨论了分子数据与传统属分类学的比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Phylogeny of firs (genus Abies, Pinaceae) based on multilocus nuclear markers (AFLP)].

To study the phylogenetic relationships, evolutionary history, and molecular systematics of firs (genus Abies), the phylogenetic reconstruction, based on nuclear multilocus markers—amplified fragment length polymorphism (AFLP)—was conducted. Using seven combinations of selective primers, 84 samples of 39 taxa were genotyped for 553 polymorphic AFLP loci. A comparison with our earlier chloroplast and mitochondrial phylogenies of the genus (in 2014) shows that the nuclear phylogeny generally is more congruent to the chloroplast tree. Most of the clades resolved by the chloroplast phylogeny were supported also in the AFLP tree. Employing the nuclear DNA-based tree, we revealed the presence of new groups and the differences in the topology of several clades. AFLP confirmed the monophyly of Asian species of section Balsamea and their sister position in relation to the American group of species of this section. As shown by the tree of chloroplast DNA, Asian species of section Balsamea do not form a monophyletic group, but belong to the clade comprising the majority of Asian species. Phylogenetically mitochondrial DNA data to a large extent are not congruent to the nuclear and chloroplast DNA trees, and are more in line with geographical distribution of species. Conflicts between nuclear and cytoplasmic phylogeny were analyzed. Taking them into account, we consider the hypothesis of a hybrid origin of particular groups of firs, including ancient hybridization in section Balsamea. A comparison of molecular data with traditional taxonomy of the genus is discussed.

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