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Integrating morphological, molecular and cytogenetic data for F2 sea turtle hybrids diagnosis revealed balanced chromosomal sets.

Caroline Regina Dias MachadoMatheus AzambujaCamila DomitGabriel Fraga da FonsecaLarissa GlugoskiCamilla Borges GazollaRafael Bonfim de AlmeidaMarcela Baer PucciThaís Torres PiresViviane Nogaroto VicariMarcelo Ricardo Vicari
Published in: Journal of evolutionary biology (2023)
Hybridization could be considered part of the evolutionary history of many species. The hybridization among sea turtle species on the Brazilian coast is atypical and occurs where nesting areas and reproductive seasons overlap. Integrated analysis of morphology and genetics is still scarce, and there is no evidence of the parental chromosome set distribution in sea turtle interspecific hybrids. In this study, chromosome markers previously established for pure sea turtle species were combined with morphological and molecular analyses aiming to recognize genetic composition and chromosome sets in possible interspecific hybrids initially identified by mixed morphology. The data showed that one hybrid could be an F2 individual among Caretta caretta × Eretmochelys imbricata × Chelonia mydas, and another is resulting from backcross between C. caretta × Lepidochelys olivacea. Native alleles of different parental lineages were reported in the hybrids, and, despite this, it was verified that the hybrid chromosome sets were still balanced. Thus, how sea turtle hybridism can affect genetic features in the long term is a concern, as the implications of the crossing-over in hybrid chromosomal sets and the effects on genetic function are still unpredictable.
Keyphrases
  • copy number
  • genome wide
  • single molecule
  • dna methylation
  • electronic health record
  • big data
  • gene expression
  • single cell