Ana Gálvez-Galván, Lorena Barea, Manuel A Garrido-Ramos, Pilar Prieto
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Thus, both barley species show very divergent satDNA profiles, which could be partly explained by the differential effects of domestication versus wildlife. Divergence derives from the differential amplification of different common ancestral satellites and the emergence of new satellites in H. chilense, usually from pre-existing ones but also random sequences. There are also differences between the two H. chilense accessions, which support genetically distinct groups. The fluorescence in situ hybridization (FISH) patterns of some satDNAs yield distinctive genetic markers for the identification of specific H. chilense or H. vulgare chromosomes. Some of the satellites have peculiar structures or are related to transposable elements which provide information about their origin and expansion. Among these, we discuss the existence of different (peri)centromeric satellites that supply this region with some plasticity important for centromere evolution. 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引用次数: 0
摘要
在本文中,我们对两个在育种框架中具有农艺价值的大麦品种 H. chilense(H1 和 H7 编号)和 H. vulgare(H106 编号)基因组中的全套卫星 DNA(satDNA)家族(即卫星组)进行了深入研究,这些家族可作为研究减数分裂过程中染色体关联的有用工具。通过这项研究,我们分析了 H. vulgare 的 18 个 satDNA 家系、H. chilense(H1 编号)的 25 个 satDNA 家系和 H. chilense(H7 编号)的 27 个 satDNA 家系,它们构成了 46 个不同的 satDNA 家系,形成了 36 个同源组。我们的研究突出了进化和应用方面的不同重要贡献。因此,这两个大麦物种的 satDNA 图谱差异很大,部分原因可能是驯化与野生的不同影响。差异源于 H. chilense 中不同共同祖先卫星基因的不同扩增和新卫星基因的出现,通常来自已有的卫星基因,但也有随机序列。两个 H. chilense 品种之间也存在差异,这支持了基因上不同的群体。一些卫星 DNA 的荧光原位杂交(FISH)模式产生了独特的遗传标记,可用于识别特定的 H. chilense 或 H. vulgare 染色体。一些卫星基因具有特殊的结构或与转座元件有关,可提供有关其起源和扩展的信息。在这些卫星中,我们讨论了不同(近)中心粒卫星的存在,它们为这一区域提供了一些对中心粒进化非常重要的可塑性。我们在育种框架内分析了这些(中心粒周围)satDNAs 和一组副源satDNAs(共有 38 个不同的家族),因为在副源区发现的高度多样性可能支持它们在减数分裂过程中染色体识别和配对的推定含义,而这是产生加系/替换系和杂交种的一个关键点。
Highly divergent satellitomes of two barley species of agronomic importance, Hordeum chilense and H. vulgare.
In this paper, we have performed an in-depth study of the complete set of the satellite DNA (satDNA) families (i.e. the satellitomes) in the genome of two barley species of agronomic value in a breeding framework, H. chilense (H1 and H7 accessions) and H. vulgare (H106 accession), which can be useful tools for studying chromosome associations during meiosis. The study has led to the analysis of a total of 18 satDNA families in H. vulgare, 25 satDNA families in H. chilense (accession H1) and 27 satDNA families in H. chilense (accession H7) that constitute 46 different satDNA families forming 36 homology groups. Our study highlights different important contributions of evolutionary and applied interests. Thus, both barley species show very divergent satDNA profiles, which could be partly explained by the differential effects of domestication versus wildlife. Divergence derives from the differential amplification of different common ancestral satellites and the emergence of new satellites in H. chilense, usually from pre-existing ones but also random sequences. There are also differences between the two H. chilense accessions, which support genetically distinct groups. The fluorescence in situ hybridization (FISH) patterns of some satDNAs yield distinctive genetic markers for the identification of specific H. chilense or H. vulgare chromosomes. Some of the satellites have peculiar structures or are related to transposable elements which provide information about their origin and expansion. Among these, we discuss the existence of different (peri)centromeric satellites that supply this region with some plasticity important for centromere evolution. These peri(centromeric) satDNAs and the set of subtelomeric satDNAs (a total of 38 different families) are analyzed in the framework of breeding as the high diversity found in the subtelomeric regions might support their putative implication in chromosome recognition and pairing during meiosis, a key point in the production of addition/substitution lines and hybrids.
期刊介绍:
Plant Molecular Biology is an international journal dedicated to rapid publication of original research articles in all areas of plant biology.The Editorial Board welcomes full-length manuscripts that address important biological problems of broad interest, including research in comparative genomics, functional genomics, proteomics, bioinformatics, computational biology, biochemical and regulatory networks, and biotechnology. Because space in the journal is limited, however, preference is given to publication of results that provide significant new insights into biological problems and that advance the understanding of structure, function, mechanisms, or regulation. Authors must ensure that results are of high quality and that manuscripts are written for a broad plant science audience.