Ancient hybridization and repetitive element proliferation in the evolutionary history of the monocot genus Amomum (Zingiberaceae)

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Publikace nespadá pod Pedagogickou fakultu, ale pod Středoevropský technologický institut. Oficiální stránka publikace je na webu muni.cz.
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HLAVATÁ Kristýna ZÁVESKÁ Eliška LEONG-ŠKORNIČKOVÁ Jana POUCH Milan POULSEN Axel Dalberg ŠÍDA Otakar KHADKA Bijay MALÍK MANDÁKOVÁ Terezie FÉR Tomáš

Rok publikování 2024
Druh Článek v odborném periodiku
Časopis / Zdroj Frontiers in Plant Science
Fakulta / Pracoviště MU

Středoevropský technologický institut

Citace
www https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2024.1324358/full
Doi http://dx.doi.org/10.3389/fpls.2024.1324358
Klíčová slova genome evolution; genome size; interspecific hybridization; repetitive DNA; repeatome; phylogeny; 5S rDNA; Zingiberaceae
Popis Genome size variation is a crucial aspect of plant evolution, influenced by a complex interplay of factors. Repetitive elements, which are fundamental components of genomic architecture, often play a role in genome expansion by selectively amplifying specific repeat motifs. This study focuses on Amomum, a genus in the ginger family (Zingiberaceae), known for its 4.4-fold variation in genome size. Using a robust methodology involving PhyloNet reconstruction, RepeatExplorer clustering, and repeat similarity-based phylogenetic network construction, we investigated the repeatome composition, analyzed repeat dynamics, and identified potential hybridization events within the genus. Our analysis confirmed the presence of four major infrageneric clades (A-D) within Amomum, with clades A-C exclusively comprising diploid species (2n = 48) and clade D encompassing both diploid and tetraploid species (2n = 48 and 96). We observed an increase in the repeat content within the genus, ranging from 84% to 89%, compared to outgroup species with 75% of the repeatome. The SIRE lineage of the Ty1-Copia repeat superfamily was prevalent in most analyzed ingroup genomes. We identified significant difference in repeatome structure between the basal Amomum clades (A, B, C) and the most diverged clade D. Our investigation revealed evidence of ancient hybridization events within Amomum, coinciding with a substantial proliferation of multiple repeat groups. This finding supports the hypothesis that ancient hybridization is a driving force in the genomic evolution of Amomum. Furthermore, we contextualize our findings within the broader context of genome size variations and repeatome dynamics observed across major monocot lineages. This study enhances our understanding of evolutionary processes within monocots by highlighting the crucial roles of repetitive elements in shaping genome size and suggesting the mechanisms that drive these changes.
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