Single-haplotype comparative genomics provides insights into lineage-specific structural variation during cat evolution

Kevin R. Bredemeyer; La Deana Hillier; Andrew J. Harris; Graham M. Hughes; Nicole M. Foley; Colleen Lawless; Rachel A. Carroll; Jessica M. Storer; Mark A. Batzer; Edward S. Rice; Brian W. Davis; Terje Raudsepp; Stephen J. O’Brien; Leslie A. Lyons; Wesley C. Warren; William J. Murphy

doi:10.1038/s41588-023-01548-y

Single-haplotype comparative genomics provides insights into lineage-specific structural variation during cat evolution

Kevin R. Bredemeyer
, La Deana Hillier
, Andrew J. Harris
, Graham M. Hughes
, Nicole M. Foley
, Colleen Lawless
, Rachel A. Carroll
, Jessica M. Storer
, Mark A. Batzer
, Edward S. Rice
, Brian W. Davis
, Terje Raudsepp
, Stephen J. O’Brien
, Leslie A. Lyons
, Wesley C. Warren
, William J. Murphy

Department of Biological Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

The role of structurally dynamic genomic regions in speciation is poorly understood due to challenges inherent in diploid genome assembly. Here we reconstructed the evolutionary dynamics of structural variation in five cat species by phasing the genomes of three interspecies F1 hybrids to generate near-gapless single-haplotype assemblies. We discerned that cat genomes have a paucity of segmental duplications relative to great apes, explaining their remarkable karyotypic stability. X chromosomes were hotspots of structural variation, including enrichment with inversions in a large recombination desert with characteristics of a supergene. The X-linked macrosatellite DXZ4 evolves more rapidly than 99.5% of the genome clarifying its role in felid hybrid incompatibility. Resolved sensory gene repertoires revealed functional copy number changes associated with ecomorphological adaptations, sociality and domestication. This study highlights the value of gapless genomes to reveal structural mechanisms underpinning karyotypic evolution, reproductive isolation and ecological niche adaptation.

Original language	English
Pages (from-to)	1953-1963
Number of pages	11
Journal	Nature Genetics
Volume	55
Issue number	11
DOIs	https://doi.org/10.1038/s41588-023-01548-y
State	Published - Nov 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s), under exclusive licence to Springer Nature America, Inc.

ASJC Scopus Subject Areas

Genetics

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10.1038/s41588-023-01548-y

Cite this

Bredemeyer, K. R., Hillier, L. D., Harris, A. J., Hughes, G. M., Foley, N. M., Lawless, C., Carroll, R. A., Storer, J. M., Batzer, M. A., Rice, E. S., Davis, B. W., Raudsepp, T., O’Brien, S. J., Lyons, L. A., Warren, W. C., & Murphy, W. J. (2023). Single-haplotype comparative genomics provides insights into lineage-specific structural variation during cat evolution. Nature Genetics, 55(11), 1953-1963. https://doi.org/10.1038/s41588-023-01548-y

Bredemeyer, KR, Hillier, LD, Harris, AJ, Hughes, GM, Foley, NM, Lawless, C, Carroll, RA, Storer, JM, Batzer, MA, Rice, ES, Davis, BW, Raudsepp, T, O’Brien, SJ, Lyons, LA, Warren, WC & Murphy, WJ 2023, 'Single-haplotype comparative genomics provides insights into lineage-specific structural variation during cat evolution', Nature Genetics, vol. 55, no. 11, pp. 1953-1963. https://doi.org/10.1038/s41588-023-01548-y

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abstract = "The role of structurally dynamic genomic regions in speciation is poorly understood due to challenges inherent in diploid genome assembly. Here we reconstructed the evolutionary dynamics of structural variation in five cat species by phasing the genomes of three interspecies F1 hybrids to generate near-gapless single-haplotype assemblies. We discerned that cat genomes have a paucity of segmental duplications relative to great apes, explaining their remarkable karyotypic stability. X chromosomes were hotspots of structural variation, including enrichment with inversions in a large recombination desert with characteristics of a supergene. The X-linked macrosatellite DXZ4 evolves more rapidly than 99.5\% of the genome clarifying its role in felid hybrid incompatibility. Resolved sensory gene repertoires revealed functional copy number changes associated with ecomorphological adaptations, sociality and domestication. This study highlights the value of gapless genomes to reveal structural mechanisms underpinning karyotypic evolution, reproductive isolation and ecological niche adaptation.",

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Single-haplotype comparative genomics provides insights into lineage-specific structural variation during cat evolution

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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