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Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus. | LitMetric

Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus.

Genome Biol

National Key Laboratory of Crop Genetic Improvement, Hubei Hongshan Laboratory, Shenzhen Institute of Nutrition and Health, Huazhong Agricultural University, Wuhan, 430070, China.

Published: March 2024

AI Article Synopsis

  • Centromeres play a vital role in maintaining genomic stability and influencing the evolution of genomes, but their evolution in allopolyploids (organisms with multiple sets of chromosomes from different species) is poorly understood.
  • This research involved analyzing the genomes of a tetraploid Brachypodium hybridum and its diploid ancestors, revealing significant differences in centromere sequences and structures, which indicate that unique centromere repeats developed over time from a common ancestor.
  • The study also highlights how the genetic and epigenetic landscape of centromeres changes during the formation of allopolyploids, leading to variations among different species and providing new insights into the diversity of repetitive DNA in evolving genomes.

Article Abstract

Background: Centromeres are critical for maintaining genomic stability in eukaryotes, and their turnover shapes genome architectures and drives karyotype evolution. However, the co-evolution of centromeres from different species in allopolyploids over millions of years remains largely unknown.

Results: Here, we generate three near-complete genome assemblies, a tetraploid Brachypodium hybridum and its two diploid ancestors, Brachypodium distachyon and Brachypodium stacei. We detect high degrees of sequence, structural, and epigenetic variations of centromeres at base-pair resolution between closely related Brachypodium genomes, indicating the appearance and accumulation of species-specific centromere repeats from a common origin during evolution. We also find that centromere homogenization is accompanied by local satellite repeats bursting and retrotransposon purging, and the frequency of retrotransposon invasions drives the degree of interspecies centromere diversification. We further investigate the dynamics of centromeres during alloploidization process, and find that dramatic genetics and epigenetics architecture variations are associated with the turnover of centromeres between homologous chromosomal pairs from diploid to tetraploid. Additionally, our pangenomes analysis reveals the ongoing variations of satellite repeats and stable evolutionary homeostasis within centromeres among individuals of each Brachypodium genome with different polyploidy levels.

Conclusions: Our results provide unprecedented information on the genomic, epigenomic, and functional diversity of highly repetitive DNA between closely related species and their allopolyploid genomes at both coarse and fine scale.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10910784PMC
http://dx.doi.org/10.1186/s13059-024-03206-wDOI Listing

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