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Abstract

A functional immune system is important for survival in natural environments, where individuals are frequently exposed to parasites. Yet strong immune responses may have fitness costs if they deplete limited energetic resources or cause autoimmune disease. We have found associations between fitness and heritable self-reactive antibody responsiveness in a wild population of Soay sheep. The occurrence of self-reactive antibodies correlated with overall antibody responsiveness and was associated with reduced reproduction in adults of both sexes. However, in females, the presence of self-reactive antibodies was positively associated with adult survival during harsh winters. Our results highlight the complex effects of natural selection on immune responsiveness and suggest that fitness trade-offs may maintain immunoheterogeneity, including genetic variation in autoimmune susceptibility.

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Estimating genetic parameters in natural populations using the "animal model".

Loeske E. B. Kruuk (2004)

Estimating the genetic basis of quantitative traits can be tricky for wild populations in natural environments, as environmental variation frequently obscures the underlying evolutionary patterns. I review the recent application of restricted maximum-likelihood "animal models" to multigenerational data from natural populations, and show how the estimation of variance components and prediction of breeding values using these methods offer a powerful means of tackling the potentially confounding effects of environmental variation, as well as generating a wealth of new areas of investigation.

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Noise and determinism in synchronized sheep dynamics

M J Crawley, B T Grenfell, K. Wilson … (1998)

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Invertebrate ecological immunology.

J Rolff, Michael Siva-Jothy (2003)

Ecological immunology is a rapidly expanding field that examines the causes and consequences of variation in immune function in the context of evolution and of ecology. Millions of invertebrate species rely solely on innate immunity, compared with only 45,000 vertebrate species that rely additionally on an acquired immune system. Despite this difference in diversity, most studies of ecological immunology focus on vertebrates. Here we review recent progress derived largely from the mechanistic analysis of invertebrate innate immunity. Using this empirical base, we pose general questions in areas that are of central importance for the development of ecological immunology.

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PubMed ID:: 21030656

DOI:: 10.1126/science.1194878

ScienceOpen disciplines: Chemistry

Keywords: Animals,Animals, Wild,genetics,immunology,physiology,Antibodies, Antinuclear,blood,Antibodies, Helminth,Autoimmunity,Environment,Female,Fertility,Genetic Fitness,Immunity, Innate,Longevity,Male,Population Dynamics,Reproduction,Scotland,Selection, Genetic,Sex Characteristics,Sheep,Sheep Diseases,Survival Rate,Trichostrongyloidea,Trichostrongyloidiasis,veterinary

Fitness correlates of heritable variation in antibody responsiveness in a wild mammal.

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Abstract

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Most cited references 21

Estimating genetic parameters in natural populations using the "animal model".

Noise and determinism in synchronized sheep dynamics

Invertebrate ecological immunology.

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Journal

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