Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression

Gemma G R Murray; Mark Woolhouse; Miika Tapio; Mary Ndila Mbole-Kariuki; Samuel Mwangi; Amy Jennings; Ilana Conradie van Wyk; Henry Kiara; Philip G Toye; J A W Coetzer; Mark Bronsvoort; Olivier Hanotte; Tad Sonstegard; Margo Chase-Topping

doi:10.1186/1471-2148-13-246

Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression

Gemma G R Murray, Mark Woolhouse, Miika Tapio, Mary Ndila Mbole-Kariuki, Samuel Mwangi, Amy Jennings, Ilana Conradie van Wyk, Henry Kiara, Philip G Toye, J A W Coetzer, Mark Bronsvoort, Olivier Hanotte, Tad Sonstegard, Margo Chase-Topping

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

Abstract

Background

Positive multi-locus heterozygosity-fitness correlations have been observed in a number of natural populations. They have been explained by the correlation between heterozygosity and inbreeding, and the negative effect of inbreeding on fitness (inbreeding depression). Exotic introgression in a locally adapted population has also been found to reduce fitness (outbreeding depression) through the breaking-up of co-adapted genes, or the introduction of non-locally adapted gene variants.

In this study we examined the inter-relationships between genome-wide heterozygosity, introgression, and death or illness as a result of infectious disease in a sample of calves from an indigenous population of East African Shorthorn Zebu (crossbred Bos taurus x Bos indicus) in western Kenya. These calves were observed from birth to one year of age as part of the Infectious Disease in East African Livestock (IDEAL) project. Some of the calves were found to be genetic hybrids, resulting from the recent introgression of European cattle breed(s) into the indigenous population. European cattle are known to be less well adapted to the infectious diseases present in East Africa. If death and illness as a result of infectious disease have a genetic basis within the population, we would expect both a negative association of these outcomes with introgression and a positive association with heterozygosity.

Results

In this indigenous livestock population we observed negative associations between heterozygosity and both death and illness as a result of infectious disease and a positive association between European taurine introgression and episodes of clinical illness.

Conclusion

We observe the effects of both inbreeding and outbreeding depression in the East African Shorthorn Zebu, and therefore find evidence of a genetic component to vulnerability to infectious disease. These results indicate that the significant burden of infectious disease in this population could, in principle, be reduced by altered breeding practices.

Original language	English
Article number	246
Journal	BMC Evolutionary Biology
Volume	13
DOIs	https://doi.org/10.1186/1471-2148-13-246
Publication status	Published - 9 Nov 2013

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10.1186/1471-2148-13-246

Genetic susceptibility to infectious disease in East African Shorthorn Zebu
© 2013 Murray et al.; licensee BioMed Central Ltd. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Final published version, 347 KBLicence: Creative Commons: Attribution (CC-BY)

http://www.biomedcentral.com/1471-2148/13/246

ISP1: Analysis and prediction in complex animal systems
Tenesa, A., Archibald, A., Beard, P., Bishop, S., Bronsvoort, M., Burt, D., Freeman, T., Haley, C., Hocking, P., Houston, R., Hume, D., Joshi, A., Law, A., Michoel, T., Summers, K., Vernimmen, D., Watson, M., Wiener, P., Wilson, A., Woolliams, J., Ait-Ali, T., Barnett, M., Carlisle, A., Finlayson, H., Haga, I., Karavolos, M., Matika, O., Paterson, T., Paton, B., Pong-Wong, R., Robert, C. & Robertson, G.
BBSRC
1/04/12 → 31/03/17
Project: Research
IDEAL: Infection dynamics and disease burden of East African cattle
Woolhouse, M. & Bronsvoort, M.
UK-based charities
1/09/06 → 30/04/13
Project: Research

Cite this

Murray, G. G. R., Woolhouse, M., Tapio, M., Mbole-Kariuki, M. N., Mwangi, S., Jennings, A., Conradie van Wyk, I., Kiara, H., Toye, P. G., Coetzer, J. A. W., Bronsvoort, M., Hanotte, O., Sonstegard, T., & Chase-Topping, M. (2013). Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression. BMC Evolutionary Biology, 13, [246]. https://doi.org/10.1186/1471-2148-13-246

@article{830e0585e78c4bf68aaf4b25829da248,

title = "Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression",

abstract = "BackgroundPositive multi-locus heterozygosity-fitness correlations have been observed in a number of natural populations. They have been explained by the correlation between heterozygosity and inbreeding, and the negative effect of inbreeding on fitness (inbreeding depression). Exotic introgression in a locally adapted population has also been found to reduce fitness (outbreeding depression) through the breaking-up of co-adapted genes, or the introduction of non-locally adapted gene variants.In this study we examined the inter-relationships between genome-wide heterozygosity, introgression, and death or illness as a result of infectious disease in a sample of calves from an indigenous population of East African Shorthorn Zebu (crossbred Bos taurus x Bos indicus) in western Kenya. These calves were observed from birth to one year of age as part of the Infectious Disease in East African Livestock (IDEAL) project. Some of the calves were found to be genetic hybrids, resulting from the recent introgression of European cattle breed(s) into the indigenous population. European cattle are known to be less well adapted to the infectious diseases present in East Africa. If death and illness as a result of infectious disease have a genetic basis within the population, we would expect both a negative association of these outcomes with introgression and a positive association with heterozygosity.ResultsIn this indigenous livestock population we observed negative associations between heterozygosity and both death and illness as a result of infectious disease and a positive association between European taurine introgression and episodes of clinical illness.ConclusionWe observe the effects of both inbreeding and outbreeding depression in the East African Shorthorn Zebu, and therefore find evidence of a genetic component to vulnerability to infectious disease. These results indicate that the significant burden of infectious disease in this population could, in principle, be reduced by altered breeding practices.",

author = "Murray, {Gemma G R} and Mark Woolhouse and Miika Tapio and Mbole-Kariuki, {Mary Ndila} and Samuel Mwangi and Amy Jennings and {Conradie van Wyk}, Ilana and Henry Kiara and Toye, {Philip G} and Coetzer, {J A W} and Mark Bronsvoort and Olivier Hanotte and Tad Sonstegard and Margo Chase-Topping",

year = "2013",

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doi = "10.1186/1471-2148-13-246",

language = "English",

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Murray, GGR, Woolhouse, M, Tapio, M, Mbole-Kariuki, MN, Mwangi, S, Jennings, A, Conradie van Wyk, I, Kiara, H, Toye, PG, Coetzer, JAW, Bronsvoort, M, Hanotte, O, Sonstegard, T & Chase-Topping, M 2013, 'Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression', BMC Evolutionary Biology, vol. 13, 246. https://doi.org/10.1186/1471-2148-13-246

TY - JOUR

T1 - Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression

AU - Murray, Gemma G R

AU - Woolhouse, Mark

AU - Tapio, Miika

AU - Mbole-Kariuki, Mary Ndila

AU - Mwangi, Samuel

AU - Jennings, Amy

AU - Conradie van Wyk, Ilana

AU - Kiara, Henry

AU - Toye, Philip G

AU - Coetzer, J A W

AU - Bronsvoort, Mark

AU - Hanotte, Olivier

AU - Sonstegard, Tad

AU - Chase-Topping, Margo

PY - 2013/11/9

Y1 - 2013/11/9

N2 - BackgroundPositive multi-locus heterozygosity-fitness correlations have been observed in a number of natural populations. They have been explained by the correlation between heterozygosity and inbreeding, and the negative effect of inbreeding on fitness (inbreeding depression). Exotic introgression in a locally adapted population has also been found to reduce fitness (outbreeding depression) through the breaking-up of co-adapted genes, or the introduction of non-locally adapted gene variants.In this study we examined the inter-relationships between genome-wide heterozygosity, introgression, and death or illness as a result of infectious disease in a sample of calves from an indigenous population of East African Shorthorn Zebu (crossbred Bos taurus x Bos indicus) in western Kenya. These calves were observed from birth to one year of age as part of the Infectious Disease in East African Livestock (IDEAL) project. Some of the calves were found to be genetic hybrids, resulting from the recent introgression of European cattle breed(s) into the indigenous population. European cattle are known to be less well adapted to the infectious diseases present in East Africa. If death and illness as a result of infectious disease have a genetic basis within the population, we would expect both a negative association of these outcomes with introgression and a positive association with heterozygosity.ResultsIn this indigenous livestock population we observed negative associations between heterozygosity and both death and illness as a result of infectious disease and a positive association between European taurine introgression and episodes of clinical illness.ConclusionWe observe the effects of both inbreeding and outbreeding depression in the East African Shorthorn Zebu, and therefore find evidence of a genetic component to vulnerability to infectious disease. These results indicate that the significant burden of infectious disease in this population could, in principle, be reduced by altered breeding practices.

AB - BackgroundPositive multi-locus heterozygosity-fitness correlations have been observed in a number of natural populations. They have been explained by the correlation between heterozygosity and inbreeding, and the negative effect of inbreeding on fitness (inbreeding depression). Exotic introgression in a locally adapted population has also been found to reduce fitness (outbreeding depression) through the breaking-up of co-adapted genes, or the introduction of non-locally adapted gene variants.In this study we examined the inter-relationships between genome-wide heterozygosity, introgression, and death or illness as a result of infectious disease in a sample of calves from an indigenous population of East African Shorthorn Zebu (crossbred Bos taurus x Bos indicus) in western Kenya. These calves were observed from birth to one year of age as part of the Infectious Disease in East African Livestock (IDEAL) project. Some of the calves were found to be genetic hybrids, resulting from the recent introgression of European cattle breed(s) into the indigenous population. European cattle are known to be less well adapted to the infectious diseases present in East Africa. If death and illness as a result of infectious disease have a genetic basis within the population, we would expect both a negative association of these outcomes with introgression and a positive association with heterozygosity.ResultsIn this indigenous livestock population we observed negative associations between heterozygosity and both death and illness as a result of infectious disease and a positive association between European taurine introgression and episodes of clinical illness.ConclusionWe observe the effects of both inbreeding and outbreeding depression in the East African Shorthorn Zebu, and therefore find evidence of a genetic component to vulnerability to infectious disease. These results indicate that the significant burden of infectious disease in this population could, in principle, be reduced by altered breeding practices.

U2 - 10.1186/1471-2148-13-246

DO - 10.1186/1471-2148-13-246

M3 - Article

VL - 13

JO - BMC Evolutionary Biology

JF - BMC Evolutionary Biology

SN - 1471-2148

M1 - 246

ER -

Genetic susceptibility to infectious disease in East African Shorthorn Zebu: a genome-wide analysis of the effect of heterozygosity and exotic introgression

Abstract

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Projects

ISP1: Analysis and prediction in complex animal systems

IDEAL: Infection dynamics and disease burden of East African cattle

Cite this