Biology (Aug 2023)

Following the Pathway of W Chromosome Differentiation in <i>Triportheus</i> (Teleostei: Characiformes)

  • Mariannah Pravatti Barcellos de Oliveira,
  • Rafael Kretschmer,
  • Geize Aparecida Deon,
  • Gustavo Akira Toma,
  • Tariq Ezaz,
  • Caio Augusto Gomes Goes,
  • Fábio Porto-Foresti,
  • Thomas Liehr,
  • Ricardo Utsunomia,
  • Marcelo de Bello Cioffi

DOI
https://doi.org/10.3390/biology12081114
Journal volume & issue
Vol. 12, no. 8
p. 1114

Abstract

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In this work, we trace the dynamics of satellite DNAs (SatDNAs) accumulation and elimination along the pathway of W chromosome differentiation using the well-known Triportheus fish model. Triportheus stands out due to a conserved ZZ/ZW sex chromosome system present in all examined species. While the Z chromosome is conserved in all species, the W chromosome is invariably smaller and exhibits differences in size and morphology. The presumed ancestral W chromosome is comparable to that of T. auritus, and contains 19 different SatDNA families. Here, by examining five additional Triportheus species, we showed that the majority of these repetitive sequences were eliminated as speciation was taking place. The W chromosomes continued degeneration, while the Z chromosomes of some species began to accumulate some TauSatDNAs. Additional species-specific SatDNAs that made up the heterochromatic region of both Z and W chromosomes were most likely amplified in each species. Therefore, the W chromosomes of the various Triportheus species have undergone significant evolutionary changes in a short period of time (15–25 Myr) after their divergence.

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