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A natural gene drive system influences bovine tuberculosis susceptibility in African buffalo: Possible implications for disease management

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  • Pim van Hooft
  • Wayne M Getz
  • Barend J Greyling
  • Armanda D S Bastos

Abstract

Bovine tuberculosis (BTB) is endemic to the African buffalo (Syncerus caffer) of Hluhluwe-iMfolozi Park (HiP) and Kruger National Park, South Africa. In HiP, the disease has been actively managed since 1999 through a test-and-cull procedure targeting BTB-positive buffalo. Prior studies in Kruger showed associations between microsatellite alleles, BTB and body condition. A sex chromosomal meiotic drive, a form of natural gene drive, was hypothesized to be ultimately responsible. These associations indicate high-frequency occurrence of two types of male-deleterious alleles (or multiple-allele haplotypes). One type negatively affects body condition and BTB resistance in both sexes. The other type has sexually antagonistic effects: negative in males but positive in females. Here, we investigate whether a similar gene drive system is present in HiP buffalo, using 17 autosomal microsatellites and microsatellite-derived Y-chromosomal haplotypes from 401 individuals, culled in 2002–2004. We show that the association between autosomal microsatellite alleles and BTB susceptibility detected in Kruger, is also present in HiP. Further, Y-haplotype frequency dynamics indicated that a sex chromosomal meiotic drive also occurred in HiP. BTB was associated with negative selection of male-deleterious alleles in HiP, unlike positive selection in Kruger. Birth sex ratios were female-biased. We attribute negative selection and female-biased sex ratios in HiP to the absence of a Y-chromosomal sex-ratio distorter. This distorter has been hypothesized to contribute to positive selection of male-deleterious alleles and male-biased birth sex ratios in Kruger. As previously shown in Kruger, microsatellite alleles were only associated with male-deleterious effects in individuals born after wet pre-birth years; a phenomenon attributed to epigenetic modification. We identified two additional allele types: male-specific deleterious and beneficial alleles, with no discernible effect on females. Finally, we discuss how our findings may be used for breeding disease-free buffalo and implementing BTB test-and-cull programs.

Suggested Citation

  • Pim van Hooft & Wayne M Getz & Barend J Greyling & Armanda D S Bastos, 2019. "A natural gene drive system influences bovine tuberculosis susceptibility in African buffalo: Possible implications for disease management," PLOS ONE, Public Library of Science, vol. 14(9), pages 1-23, September.
    • Handle: RePEc:plo:pone00:0221168
    DOI: 10.1371/journal.pone.0221168
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    References listed on IDEAS

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    1. Pim van Hooft & Eric R Dougherty & Wayne M Getz & Barend J Greyling & Bas J Zwaan & Armanda D S Bastos, 2018. "Genetic responsiveness of African buffalo to environmental stressors: A role for epigenetics in balancing autosomal and sex chromosome interactions?," PLOS ONE, Public Library of Science, vol. 13(2), pages 1-23, February.
    2. Pim van Hooft & Barend J Greyling & Herbert H T Prins & Wayne M Getz & Anna E Jolles & Armanda D S Bastos, 2007. "Selection at the Y Chromosome of the African Buffalo Driven by Rainfall," PLOS ONE, Public Library of Science, vol. 2(10), pages 1-5, October.
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