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Avian cytogenetics goes functional

Griffin, Darren K., Farré, Marta, Lithgow, Pamela, O'Connor, Rebecca, Romanov, Michael N, Larkin, Denis M. (2014) Avian cytogenetics goes functional. In: Abstracts of Papers Presented at the 2014 Meeting on Avian Model Systems. . p. 18. Cold Spring Harbor Laboratory, Cold Spring Harbor, NY, USA (doi:10.1007/s10577-014-9435-7) (Access to this publication is currently restricted. You may be able to access a copy if URLs are provided) (KAR id:46686)

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Chromosomes (and sub-chromosomal homologous synteny blocks (HSBs)) have great significance in molecular studies of genome evolution. In birds, our ability to define chromosomes and HSBs precisely has however been impeded by a near intractable karyotype and so has focused primarily on comparative molecular cytogenetics (zoo-FISH) of the largest chromosomes (1-10+Z). Availability of multiple avian genome sequence assemblies has however allowed us, for the first time, to identify chromosomal syntenies across species. In recent work we made use of comparative maps for 20+ avian genome assemblies (plus out-groups) and presented them on “Evolution Highway” an open-access, interactive freely available comparative chromosome browser designed to store and visualize comparative chromosome maps. This browser ( visualizes comparative genome organization and identifies different types of evolutionary breakpoint regions (EBRs) in chromosomes, e.g., lineage specific, ordinal, superordinal, and reuse. Comparative analysis of all available genomes provides insight into the mechanisms of chromosome change through correlation of EBRs with transposable elements and non-allelic homologous recombination. Gene ontology analysis is revealing interesting correlations with avian specific phenotype and function. Focus on six genomes (chicken, turkey, duck, zebra finch, ostrich, budgerigar) with the large N50s and supporting molecular cytogenetic data, allowed us to assemble a putative ancestral avian karyotype and identify key changes that led to the gross genome organization of representatives in the major avian clades (Palaeognathae, Galliformes, Anseriformes, Neoaves). We describe numerous inter-chromosomal rearrangements in a Paleoganthaeous bird (the ostrich), plus rearrangements in the budgerigar (Psattaciformes) and 15 other species. Intra-chromosomal evolutionary change can be derived, most parsimoniously, by a series of inversions, inter-chromosomal rearrangements by fissions/fusions. Increased chromosome rearrangement is associated with differentiation in certain clades, with most intrachromosomal changes (mostly inversions) occurring in the zebra finch (Passeriformes) since its divergence from its sister group, the Psittaciformes 54MYA, This is coincident with the evolution of passerine-specific phenotypes e.g. vocal learning. Results also suggest that the Galloanserae (especially chicken) underwent the fewest changes compared to the ancestral karyotype; notably these birds appear, from fossil evidence, to be the most similar to ancient avian ancestors.

Item Type: Conference or workshop item (Paper)
DOI/Identification number: 10.1007/s10577-014-9435-7
Uncontrolled keywords: evolutionary and comparative cytogenetics; biochemistry & molecular biology; genetics & heredity
Subjects: Q Science > QH Natural history
Q Science > QH Natural history > QH426 Genetics
Q Science > QL Zoology
Q Science > QP Physiology (Living systems) > QP506 Molecular biology
Divisions: Divisions > Division of Natural Sciences > School of Biosciences
Signature Themes: Food Systems, Natural Resources and Environment
Depositing User: Mike Romanov
Date Deposited: 14 Jan 2015 16:01 UTC
Last Modified: 30 Jul 2021 11:32 UTC
Resource URI: (The current URI for this page, for reference purposes)
Griffin, Darren K.:
Farré, Marta:
O'Connor, Rebecca:
Romanov, Michael N:
Larkin, Denis M.:
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