Comparative Cytogenetics between Two Important Songbird, Models: The Zebra Finch and the Canary.

Malcolm A Ferguson-Smith,Manfred Gahr,Johan J Bolhuis,Rafael Kretschmer,Patricia C M O´Brien,Antje Bakker,Carolina Frankl-Vilches,Edivaldo H C De Oliveira,Michelly Da Silva Dos Santos

doi:10.1371/journal.pone.0170997

Abstract

Songbird species (order Passeriformes, suborder Oscines) are important models in various experimental fields spanning behavioural genomics to neurobiology. Although the genomes of some songbird species were sequenced recently, the chromosomal organization of these species is mostly unknown. Here we focused on the two most studied songbird species in neuroscience, the zebra finch (Taeniopygia guttata) and the canary (Serinus canaria). In order to clarify these issues and also to integrate chromosome data with their assembled genomes, we used classical and molecular cytogenetics in both zebra finch and canary to define their chromosomal homology, localization of heterochromatic blocks and distribution of rDNA clusters. We confirmed the same diploid number (2n = 80) in both species, as previously reported. FISH experiments confirmed the occurrence of multiple paracentric and pericentric inversions previously found in other species of Passeriformes, providing a cytogenetic signature for this order, and corroborating data from in silico analyses. Additionally, compared to other Passeriformes, we detected differences in the zebra finch karyotype concerning the morphology of some chromosomes, in the distribution of 5S rDNA clusters, and an inversion in chromosome 1.

Highlights

Species belonging to the suborder Oscines (Aves, order Passeriformes), known as songbirds, have been employed as models in studies concerning neuroscience, vocal communication, development, behavioural genomics, ecology and evolution, among others [1,2,3,4,5,6,7]
The patterns of distribution of the heterochromatic blocks agreed with most reports on avian karyotypes [29], we found in the canary atypical large heterochromatic blocks in some pairs, especially in pair 2, that are not common in macrochromosomes
For Passeriformes, most species analyzed show only one pair of microchromosomes bearing 18/28S rDNA [22, 40], such as we found in zebra finch and canary

Summary

Introduction

Species belonging to the suborder Oscines (Aves, order Passeriformes), known as songbirds, have been employed as models in studies concerning neuroscience, vocal communication, development, behavioural genomics, ecology and evolution, among others [1,2,3,4,5,6,7]. The zebra finch (Taeniopygia guttata, TGU) and the canary (Serinus canaria, SCA) belong to different families (Estrildidae and Fringillidae, respectively), are frequently used and PLOS ONE | DOI:10.1371/journal.pone.0170997. Comparative Cytogenetics between the Zebra-Finch and the Canary The zebra finch (Taeniopygia guttata, TGU) and the canary (Serinus canaria, SCA) belong to different families (Estrildidae and Fringillidae, respectively), are frequently used and PLOS ONE | DOI:10.1371/journal.pone.0170997 January 27, 2017

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