Natural adaptation and human selection of northeast African sheep genomes |
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Affiliation: | 1. Department of Zoology, Faculty of Sciences, Misurata University, Misurata, Libya;2. School of Life Sciences, University of Nottingham, University Park, Nottingham, UK;3. Small Ruminant Genomics, International Centre for Agricultural Research in the Dry Areas (ICARDA), Addis Ababa, Ethiopia;4. LiveGene, International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia;5. Animal and Veterinary Sciences, SRUC, The Roslin Institute Building, Midlothian, Edinburgh, UK;6. Faculty of Medical Laboratory Sciences, University of Khartoum, Sudan;7. Centre for Tropical Livestock Genetics and Health (CTLGH), The Roslin Institute, University of Edinburgh, UK;8. Debre Berhan Research Centre, Debre Berhan, Ethiopia;9. Department of Medical Laboratory Techniques, Al-Maarif University College, Ramadi, Anbar, Iraq;10. LiveGene-CTLGH, International Livestock Research Institute (ILRI) Ethiopia, Addis Ababa, Ethiopia;11. Amhara Regional Agricultural Research Institute, Bahir Dar, Ethiopia;12. Department of Animal Production, Faculty of Agriculture, Misurata University, Misurata, Libya;13. Agricultural Research Centre, Misurata, Libya |
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Abstract: | African sheep manifest diverse but distinct physio-anatomical traits, which are the outcomes of natural- and human-driven selection. Here, we generated 34.8 million variants from 150 indigenous northeast African sheep genomes sequenced at an average depth of ~54× for 130 samples (Ethiopia, Libya) and ~20× for 20 samples (Sudan). These represented sheep from diverse environments, tail morphology and post-Neolithic introductions to Africa. Phylogenetic and model-based admixture analysis provided evidence of four genetic groups corresponding to altitudinal geographic origins, tail morphotypes and possible historical introduction and dispersal of the species into and across the continent. Running admixture at higher levels of K (6 ≤ K ≤ 25), revealed cryptic levels of genome intermixing as well as distinct genetic backgrounds in some populations. Comparative genomic analysis identified targets of selection that spanned conserved haplotype structures overlapping clusters of genes and gene families. These were related to hypoxia responses, ear morphology, caudal vertebrae and tail skeleton length, and tail fat-depot structures. Our findings provide novel insights underpinning morphological variation and response to human-driven selection and environmental adaptation in African indigenous sheep. |
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