New genome assembly of the barn owl (Tyto alba alba)

Anne‐Lyse Ducrest; Samuel Neuenschwander; Emanuel Schmid‐Siegert; Marco Pagni; Clément Train; David Dylus; Yannis Nevers; Alex Warwick Vesztrocy; Luis M. San‐Jose; Mélanie Dupasquier; Christophe Dessimoz; Ioannis Xenarios; Alexandre Roulin; Jérôme Goudet

doi:10.1002/ece3.5991

Ecology and Evolution (Mar 2020)

New genome assembly of the barn owl (Tyto alba alba)

Anne‐Lyse Ducrest,
Samuel Neuenschwander,
Emanuel Schmid‐Siegert,
Marco Pagni,
Clément Train,
David Dylus,
Yannis Nevers,
Alex Warwick Vesztrocy,
Luis M. San‐Jose,
Mélanie Dupasquier,
Christophe Dessimoz,
Ioannis Xenarios,
Alexandre Roulin,
Jérôme Goudet

Affiliations

Anne‐Lyse Ducrest: Department of Ecology and Evolution University of Lausanne Lausanne Switzerland
Samuel Neuenschwander: Vital‐IT Swiss Institute of Bioinformatics Lausanne Switzerland
Emanuel Schmid‐Siegert: Vital‐IT Swiss Institute of Bioinformatics Lausanne Switzerland
Marco Pagni: Vital‐IT Swiss Institute of Bioinformatics Lausanne Switzerland
Clément Train: Department of Computational Biology University of Lausanne Lausanne Switzerland
David Dylus: Department of Computational Biology University of Lausanne Lausanne Switzerland
Yannis Nevers: Department of Computational Biology University of Lausanne Lausanne Switzerland
Alex Warwick Vesztrocy: Center for Life's Origins and Evolution Department of Genetics, Evolution and Environment University College London London UK
Luis M. San‐Jose: Laboratory Evolution and Biological Diversity UMR 5174 CNRS University of Toulouse III Paul Sabatier Toulouse France
Mélanie Dupasquier: Lausanne Genomic Technologies Facility Lausanne Switzerland
Christophe Dessimoz: Department of Computational Biology University of Lausanne Lausanne Switzerland
Ioannis Xenarios: Center for Integrative Genomics University of Lausanne Lausanne Switzerland
Alexandre Roulin: Department of Ecology and Evolution University of Lausanne Lausanne Switzerland
Jérôme Goudet: Department of Ecology and Evolution University of Lausanne Lausanne Switzerland

DOI: https://doi.org/10.1002/ece3.5991
Journal volume & issue: Vol. 10, no. 5
pp. 2284 – 2298

Abstract

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Abstract New genomic tools open doors to study ecology, evolution, and population genomics of wild animals. For the Barn owl species complex, a cosmopolitan nocturnal raptor, a very fragmented draft genome was assembled for the American species (Tyto furcata pratincola) (Jarvis et al. 2014). To improve the genome, we assembled de novo Illumina and Pacific Biosciences (PacBio) long reads sequences of its European counterpart (Tyto alba alba). This genome assembly of 1.219 Gbp comprises 21,509 scaffolds and results in a N50 of 4,615,526 bp. BUSCO (Universal Single‐Copy Orthologs) analysis revealed an assembly completeness of 94.8% with only 1.8% of the genes missing out of 4,915 avian orthologs searched, a proportion similar to that found in the genomes of the zebra finch (Taeniopygia guttata) or the collared flycatcher (Ficedula albicollis). By mapping the reads of the female American barn owl to the male European barn owl reads, we detected several structural variants and identified 70 Mbp of the Z chromosome. The barn owl scaffolds were further mapped to the chromosomes of the zebra finch. In addition, the completeness of the European barn owl genome is demonstrated with 94 of 128 proteins missing in the chicken genome retrieved in the European barn owl transcripts. This improved genome will help future barn owl population genomic investigations.

Published in Ecology and Evolution

ISSN: 2045-7758 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://onlinelibrary.wiley.com/journal/20457758

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