Does time matter? Intraspecific diversity of ribosomal RNA genes in lineages of the allopolyploid model grass Brachypodium hybridum with different evolutionary ages.

IF 5.4 3区材料科学 Q2 CHEMISTRY, PHYSICAL

ACS Applied Energy Materials Pub Date : 2024-10-18 DOI:10.1186/s12870-024-05658-5

Dana Trunova, Natalia Borowska-Zuchowska, Serhii Mykhailyk, Kai Xia, Yuanbin Zhu, Ruben Sancho, Magdalena Rojek-Jelonek, Sònia Garcia, Kai Wang, Pilar Catalan, Ales Kovarik, Robert Hasterok, Bozena Kolano

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引用次数: 0

Abstract

Background: Polyploidisation often results in genome rearrangements that may involve changes in both the single-copy sequences and the repetitive genome fraction. In this study, we performed a comprehensive comparative analysis of repetitive DNA, with a particular focus on ribosomal DNA (rDNA), in Brachypodium hybridum (2n = 4x = 30, subgenome composition DDSS), an allotetraploid resulting from a natural cross between two diploid species that resemble the modern B. distachyon (2n = 10; DD) and B. stacei (2n = 20; SS). Taking advantage of the recurrent origin of B. hybridum, we investigated two genotypes, Bhyb26 and ABR113, differing markedly in their evolutionary age (1.4 and 0.14 Mya, respectively) and which resulted from opposite cross directions. To identify the origin of rDNA loci we employed cytogenetic and molecular methods (FISH, gCAPS and Southern hybridisation), phylogenetic and genomic approaches.

Results: Unlike the general maintenance of doubled gene dosage in B. hybridum, the rRNA genes showed a remarkable tendency towards diploidisation at both locus and unit levels. While the partial elimination of 35S rDNA units occurred in the younger ABR113 lineage, unidirectional elimination of the entire locus was observed in the older Bhyb26 lineage. Additionally, a novel 5S rDNA family was amplified in Bhyb26 replacing the parental units. The 35S and 5S rDNA units were preferentially eliminated from the S- and D-subgenome, respectively. Thus, in the more ancient B. hybridum lineage, Bhyb26, 5S and 35S rRNA genes are likely expressed from different subgenomes, highlighting the complexity of polyploid regulatory networks.

Conclusion: Comparative analyses between two B. hybridum lineages of distinct evolutionary ages revealed that although the recent lineage ABR113 exhibited an additive pattern of rDNA loci distribution, the ancient lineage Bhyb26 demonstrated a pronounced tendency toward diploidisation manifested by the reduction in the number of both 35S and 5S loci. In conclusion, the age of the allopolyploid appears to be a decisive factor in rDNA turnover in B. hybridum.

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时间重要吗？不同进化年龄的全多倍体模式草Brachypodium hybridum品系中核糖体RNA基因的种内多样性。

背景：多倍体化通常会导致基因组重排，这可能涉及单拷贝序列和重复基因组部分的变化。在本研究中，我们对杂合子（Brachypodium hybridum，2n = 4x = 30，亚基因组组成为 DDSS）的重复 DNA 进行了全面的比较分析，重点是核糖体 DNA（rDNA），杂合子是由两个二倍体物种自然杂交产生的异源四倍体，这两个物种类似于现代的 B. distachyon（2n = 10；DD）和 B. stacei（2n = 20；SS）。利用杂交种 B. 的复发起源，我们研究了两种基因型 Bhyb26 和 ABR113，这两种基因型的进化年龄（分别为 1.4 和 0.14 Mya）差异显著，而且它们的杂交方向相反。为了确定 rDNA 位点的起源，我们采用了细胞遗传学和分子方法（FISH、gCAPS 和 Southern 杂交）、系统发生学和基因组学方法：结果：与杂交种 B.中基因剂量普遍加倍的情况不同，rRNA 基因在位点和单位水平上都表现出显著的二倍体化趋势。在较年轻的 ABR113 品系中出现了 35S rDNA 单位的部分淘汰，而在较年长的 Bhyb26 品系中则观察到了整个基因座的单向淘汰。此外，在 Bhyb26 中还扩增出一个新的 5S rDNA 家族，取代了亲本单位。35S 和 5S rDNA 单位分别从 S 子基因组和 D 子基因组中优先淘汰。因此，在更古老的 B. hybridum 系中，Bhyb26、5S 和 35S rRNA 基因可能是从不同的亚基因组中表达出来的，这凸显了多倍体调控网络的复杂性：结论：对进化年龄不同的两个杂交种的比较分析表明，虽然最近的种系 ABR113 表现出 rDNA 位点分布的加性模式，但古老的种系 Bhyb26 则表现出明显的二倍体化趋势，35S 和 5S 位点的数量都有所减少。总之，异源多倍体的年龄似乎是 B. hybridum rDNA 更替的一个决定性因素。

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

ACS Applied Energy Materials Materials Science-Materials Chemistry

CiteScore

10.30

自引率

6.20%

发文量

1368

期刊介绍： ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.