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Molecular phylogeny of RPB2 gene reveals multiple origin, geographic differentiation of H genome, and the relationship of the Y genome to other genomes in Elymus species.RPB2基因的分子系统发育揭示了披碱草属物种中H基因组的多起源、地理分化以及Y基因组与其他基因组的关系。
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大麦属中RPB2基因的分子进化与系统发育

Molecular evolution and phylogeny of the RPB2 gene in the genus Hordeum.

作者信息

Sun Genlou, Pourkheirandish Mohammad, Komatsuda Takao

机构信息

Biology Department, Saint Mary's University, 923 Robie Street, Halifax, NS, B3H 3C3, Canada.

出版信息

Ann Bot. 2009 Apr;103(6):975-83. doi: 10.1093/aob/mcp020. Epub 2009 Feb 12.

DOI:10.1093/aob/mcp020
PMID:19213797
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2707890/
Abstract

BACKGROUND AND AIMS

It is known that the miniature inverted-repeat terminal element (MITE) preferentially inserts into low-copy-number sequences or genic regions. Characterization of the second largest subunit of low-copy nuclear RNA polymerase II (RPB2) has indicated that MITE and indels have shaped the homoeologous RPB2 loci in the St and H genome of Eymus species in Triticeae. The aims of this study was to determine if there is MITE in the RPB2 gene in Hordeum genomes, and to compare the gene evolution of RPB2 with other diploid Triticeae species. The sequences were used to reconstruct the phylogeny of the genus Hordeum.

METHODS

RPB2 regions from all diploid species of Hordeum, one tetraploid species (H. brevisubulatum) and ten accessions of diploid Triticeae species were amplified and sequenced. Parsimony analysis of the DNA dataset was performed in order to reveal the phylogeny of Hordeum species.

KEY RESULTS

MITE was detected in the Xu genome. A 27-36 bp indel sequence was found in the I and Xu genome, but deleted in the Xa and some H genome species. Interestingly, the indel length in H genomes corresponds well to their geographical distribution. Phylogenetic analysis of the RPB2 sequences positioned the H and Xa genome in one monophyletic group. The I and Xu genomes are distinctly separated from the H and Xa ones. The RPB2 data also separated all New World H genome species except H. patagonicum ssp. patagonicum from the Old World H genome species.

CONCLUSIONS

MITE and large indels have shaped the RPB2 loci between the Xu and H, I and Xa genomes. The phylogenetic analysis of the RPB2 sequences confirmed the monophyly of Hordeum. The maximum-parsimony analysis demonstrated the four genomes to be subdivided into two groups.

摘要

背景与目的

已知微型反向重复末端元件(MITE)优先插入低拷贝数序列或基因区域。对低拷贝核RNA聚合酶II(RPB2)第二大亚基的表征表明,MITE和插入缺失塑造了小麦族披碱草属物种St和H基因组中的同源RPB2基因座。本研究的目的是确定大麦基因组的RPB2基因中是否存在MITE,并将RPB2的基因进化与其他二倍体小麦族物种进行比较。这些序列被用于重建大麦属的系统发育。

方法

对大麦所有二倍体物种、一个四倍体物种(短芒大麦草)以及十个二倍体小麦族物种的材料进行RPB2区域的扩增和测序。对DNA数据集进行简约分析以揭示大麦物种的系统发育。

关键结果

在Xu基因组中检测到MITE。在I和Xu基因组中发现了一个27 - 36 bp的插入缺失序列,但在Xa和一些H基因组物种中缺失。有趣的是,H基因组中的插入缺失长度与其地理分布非常吻合。对RPB2序列的系统发育分析将H和Xa基因组定位在一个单系类群中。I和Xu基因组与H和Xa基因组明显分开。RPB2数据也将除巴塔哥尼亚大麦草巴塔哥尼亚亚种之外的所有新世界H基因组物种与旧世界H基因组物种分开。

结论

MITE和大的插入缺失塑造了Xu与H、I与Xa基因组之间的RPB2基因座。对RPB2序列的系统发育分析证实了大麦属的单系性。最大简约分析表明四个基因组可分为两组。