1. Understanding microchromosomal organization and evolution in four representative woodpeckers (Picidae, Piciformes) through BAC-FISH analysis.
- Author
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Alves Barcellos, Suziane, Kretschmer, Rafael, Santos de Souza, Marcelo, Tura, Victoria, Pozzobon, Luciano Cesar, Ochotorena de Freitas, Thales Renato, Griffin, Darren K., O'Connor, Rebecca, Gunski, Ricardo José, and del Valle Garnero, Analía
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KARYOTYPES ,BACTERIAL artificial chromosomes ,WOODPECKERS ,FLUORESCENCE in situ hybridization ,ZEBRA finch ,CHROMOSOMES - Abstract
The genome organization of woodpeckers has several distinctive features e.g., an uncommon accumulation of repetitive sequences, enlarged Z chromosomes, and atypical diploid numbers. Despite the large diversity of species, there is a paucity of detailed cytogenomic studies for this group and we thus aimed to rectify this. Genome organization patterns and hence evolutionary change in the microchromosome formation of four species (Colaptes campestris, Veniliornis spilogaster, Melanerpes candidus, and Picumnus nebulosus) was established through fluorescence in situ hybridization using bacterial artificial chromosomes originally derived from Gallus gallus and Taeniopygia guttata. Findings suggest that P. nebulosus (2n = 110), which was described for the first time, had the most basal karyotype among species of Picidae studied here, and probably arose as a result of fissions of avian ancestral macrochromosomes. We defined a new chromosomal number for V. spilogaster (2n = 88) and demonstrated microchromosomal rearrangements involving C. campestris plus a single, unique hitherto undescribed rearrangement in V. spilogaster. This comprised an inversion after a fusion involving the ancestral microchromosome 12 (homologous to chicken microchromosome 12). We also determined that the low diploid number of M. candidus is related to microchromosome fusions. Woodpeckers thus exhibit significantly rearranged karyotypes compared to the putative ancestral karyotype. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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