Construction of Ancestral Chromosomes in Gymnosperms and the Application in Comparative Genomic Analysis

Construction of Ancestral Chromosomes in Gymnosperms and the Application in Comparative Genomic Analysis

Chromosome rearrangements during plant evolution can lead to alterations in genome structure and gene function, thereby influencing species adaptation and evolutionary processes. Gymnosperms, as an ancient group of plants, offer valuable insights into the morphological, physiological, and ecological...

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Main Authors: Haoran Liao, Lianghui Zhong, Yujie He, Jie He, Yuhan Wu, Ying Guo, Lina Mei, Guibing Wang, Fuliang Cao, Fangfang Fu, Liangjiao Xue
Format: Article
Language:English
Published: MDPI AG 2025-08-01
Series:Plants
Subjects:
gymnosperm
ancestral karyotype
collinearity
chromosome stability
LINE-1
Online Access:https://www.mdpi.com/2223-7747/14/15/2361
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Summary:Chromosome rearrangements during plant evolution can lead to alterations in genome structure and gene function, thereby influencing species adaptation and evolutionary processes. Gymnosperms, as an ancient group of plants, offer valuable insights into the morphological, physiological, and ecological characteristics of early terrestrial flora. The reconstruction of ancestral karyotypes in gymnosperms may provide critical clues for understanding their evolutionary history. In this study, we inferred the ancestral gymnosperm karyotype (AGK), which comprises 12 chromosomes, and conducted a collinearity analysis with existing gymnosperm genomes. Our findings indicate that chromosome numbers have remained remarkably stable throughout the evolution of gymnosperms. For species with multiplied chromosome numbers, such as gnetophytes, weak collinearities with the AGK were observed. Comparisons between the AGK and gnetophyte genomes revealed a biased pattern regarding retained duplication blocks. Furthermore, our analysis of transposable elements in <i>Welwitschia mirabilis</i> identified enriched regions containing LINE-1 retrotransposons within the syntenic blocks. Syntenic analysis between the AGK and angiosperms also demonstrated a biased distribution across chromosomes. These results provide a fundamental resource for further characterization of chromosomal evolution in gymnosperms.
ISSN:2223-7747

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