Deleterious alleles in the context of domestication, inbreeding, and selection
Each individual has a certain number of harmful mutations in its genome. These mutations can lower the fitness of the individual carrying them, dependent on their dominance and selection coefficient. Effective population size, selection, and admixture are known to affect the occurrence of such mutations in a population. The relative roles of demography and selection are a key in understanding the process of adaptation. These are factors that are potentially influenced and confounded in domestic animals. Here, we hypothesize that the series of events of bottlenecks, introgression, and strong artificial selection associated with domestication increased mutational load in domestic species. Yet, mutational load is hard to quantify, so there are very few studies available revealing the relevance of evolutionary processes. The precise role of artificial selection, bottlenecks, and introgression in further increasing the load of deleterious variants in animals in breeding and conservation programmes remains unclear. In this paper, we review the effects of domestication and selection on mutational load in domestic species. Moreover, we test some hypotheses on higher mutational load due to domestication and selective sweeps using sequence data from commercial pig and chicken lines. Overall, we argue that domestication by itself is not a prerequisite for genetic erosion, indicating that fitness potential does not need to decline. Rather, mutational load in domestic species can be influenced by many factors, but consistent or strong trends are not yet clear. However, methods emerging from molecular genetics allow discrimination of hypotheses about the determinants of mutational load, such as effective population size, inbreeding, and selection, in domestic systems. These findings make us rethink the effect of our current breeding schemes on fitness of populations.
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| Language: | English |
| Subjects: | deleterious alleles, domestication, genetic load, inbreeding, selection, |
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dig-wur-nl-wurpubs-5415202025-01-15 Bosse, Mirte Megens, Hendrik-Jan Derks, Martijn F.L. de Cara, Ángeles M.R. Groenen, Martien A.M. Article/Letter to editor Evolutionary Applications 12 (2019) 1 ISSN: 1752-4563 Deleterious alleles in the context of domestication, inbreeding, and selection 2019 Each individual has a certain number of harmful mutations in its genome. These mutations can lower the fitness of the individual carrying them, dependent on their dominance and selection coefficient. Effective population size, selection, and admixture are known to affect the occurrence of such mutations in a population. The relative roles of demography and selection are a key in understanding the process of adaptation. These are factors that are potentially influenced and confounded in domestic animals. Here, we hypothesize that the series of events of bottlenecks, introgression, and strong artificial selection associated with domestication increased mutational load in domestic species. Yet, mutational load is hard to quantify, so there are very few studies available revealing the relevance of evolutionary processes. The precise role of artificial selection, bottlenecks, and introgression in further increasing the load of deleterious variants in animals in breeding and conservation programmes remains unclear. In this paper, we review the effects of domestication and selection on mutational load in domestic species. Moreover, we test some hypotheses on higher mutational load due to domestication and selective sweeps using sequence data from commercial pig and chicken lines. Overall, we argue that domestication by itself is not a prerequisite for genetic erosion, indicating that fitness potential does not need to decline. Rather, mutational load in domestic species can be influenced by many factors, but consistent or strong trends are not yet clear. However, methods emerging from molecular genetics allow discrimination of hypotheses about the determinants of mutational load, such as effective population size, inbreeding, and selection, in domestic systems. These findings make us rethink the effect of our current breeding schemes on fitness of populations. en application/pdf https://research.wur.nl/en/publications/deleterious-alleles-in-the-context-of-domestication-inbreeding-an 10.1111/eva.12691 https://edepot.wur.nl/460904 deleterious alleles domestication genetic load inbreeding selection https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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deleterious alleles domestication genetic load inbreeding selection deleterious alleles domestication genetic load inbreeding selection |
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deleterious alleles domestication genetic load inbreeding selection deleterious alleles domestication genetic load inbreeding selection Bosse, Mirte Megens, Hendrik-Jan Derks, Martijn F.L. de Cara, Ángeles M.R. Groenen, Martien A.M. Deleterious alleles in the context of domestication, inbreeding, and selection |
| description |
Each individual has a certain number of harmful mutations in its genome. These mutations can lower the fitness of the individual carrying them, dependent on their dominance and selection coefficient. Effective population size, selection, and admixture are known to affect the occurrence of such mutations in a population. The relative roles of demography and selection are a key in understanding the process of adaptation. These are factors that are potentially influenced and confounded in domestic animals. Here, we hypothesize that the series of events of bottlenecks, introgression, and strong artificial selection associated with domestication increased mutational load in domestic species. Yet, mutational load is hard to quantify, so there are very few studies available revealing the relevance of evolutionary processes. The precise role of artificial selection, bottlenecks, and introgression in further increasing the load of deleterious variants in animals in breeding and conservation programmes remains unclear. In this paper, we review the effects of domestication and selection on mutational load in domestic species. Moreover, we test some hypotheses on higher mutational load due to domestication and selective sweeps using sequence data from commercial pig and chicken lines. Overall, we argue that domestication by itself is not a prerequisite for genetic erosion, indicating that fitness potential does not need to decline. Rather, mutational load in domestic species can be influenced by many factors, but consistent or strong trends are not yet clear. However, methods emerging from molecular genetics allow discrimination of hypotheses about the determinants of mutational load, such as effective population size, inbreeding, and selection, in domestic systems. These findings make us rethink the effect of our current breeding schemes on fitness of populations. |
| format |
Article/Letter to editor |
| topic_facet |
deleterious alleles domestication genetic load inbreeding selection |
| author |
Bosse, Mirte Megens, Hendrik-Jan Derks, Martijn F.L. de Cara, Ángeles M.R. Groenen, Martien A.M. |
| author_facet |
Bosse, Mirte Megens, Hendrik-Jan Derks, Martijn F.L. de Cara, Ángeles M.R. Groenen, Martien A.M. |
| author_sort |
Bosse, Mirte |
| title |
Deleterious alleles in the context of domestication, inbreeding, and selection |
| title_short |
Deleterious alleles in the context of domestication, inbreeding, and selection |
| title_full |
Deleterious alleles in the context of domestication, inbreeding, and selection |
| title_fullStr |
Deleterious alleles in the context of domestication, inbreeding, and selection |
| title_full_unstemmed |
Deleterious alleles in the context of domestication, inbreeding, and selection |
| title_sort |
deleterious alleles in the context of domestication, inbreeding, and selection |
| url |
https://research.wur.nl/en/publications/deleterious-alleles-in-the-context-of-domestication-inbreeding-an |
| work_keys_str_mv |
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