M.H. Pinard scite author profile

M.H. Pinard

5Publications

75Citation Statements Received

62Citation Statements Given

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190

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Wageningen University & Research

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Divergent selection for immune responsiveness in chickens: estimation of realized heritability with an animal model1

Pinard

Arendonk²,

Nieuwland

et al. 1992

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With the aim of improving general disease resistance, chickens were divergently selected for their antibody titers 5 d after immunization with sheep red blood cells for nine generations. Selected and control lines differed significantly for primary and secondary responses after three generations. Heritability of the antibody titer was estimated by REML fitting an animal model using a derivative-free algorithm. The heritability estimate using data on all lines simultaneously was .31. Realized heritability of the antibody titer in the selected lines was estimated by using either the phenotypic cumulative response as the deviation from the control line or the mean breeding values obtained with an animal model. Values from the two methods were consistent, giving a realized heritability of .21 and .25 in the high and low lines, respectively. The genetic trend was not linear and the response to selection tended to accelerate over generations.

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Effect of Divergent Selection for Immune Responsiveness and of Major Histocompatibility Complex on Resistance to Marek's Disease in Chickens

et al. 1993

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Lines of chickens selected for nine generations for high (H) or low (L) antibody response to SRBC, a randombred control (C) line, and an F1 cross between H and L lines were challenged for resistance to Marek's disease (MD). Hens only were challenged at day-old by contact with virulent MD Strain K. Birds were serologically typed for MHC erythrocyte antigens. Chicks from the L and H lines died earlier and later, respectively, than the C chicks, whereas time of death did not differ between F1 birds and the L chicks. Mortality in the L line (70.1%) was higher than in the C line (42.8%), but mortality in the H line (40.9%) was not lower than in the C line or the F1 cross (47.5%). Effects of MHC genotypes and haplotypes on mortality from MD were estimated within lines with a logistic regression model. Effect of MHC was moderate in the H line (P < .10) and highly significant in the C line (P < .005). Effects of MHC genotypes were similar in the H and C line but differed in the L and F1. Heritability of mortality from MD estimated with a threshold model including relationships between individuals was .40 when all lines were grouped together, whereas heritability estimated for each line separately was .45, .51, and .78 in the H, C, and L lines, respectively. Correlations between estimated breeding values for antibody response to SRBC and mortality from MD varied between lines and sexes. Correlations also were affected by whether or not the MHC effect was taken into account.

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Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Pinard¹,

Arendonk²,

Nieuwland³

et al. 1993

Genet. Sel. Evol.

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Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Pinard¹,

Arendonk²,

Nieuwland³

et al. 1993

Genet Sel Evol

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Effects of major histocompatibility complex on antibody response in F₁ and F₂ crosses of chicken lines

Pinard¹,

Zijpp²

1993

Genet. Sel. Evol.

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M.H. Pinard

Divergent selection for immune responsiveness in chickens: estimation of realized heritability with an animal model1

Effect of Divergent Selection for Immune Responsiveness and of Major Histocompatibility Complex on Resistance to Marek's Disease in Chickens

Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Effects of major histocompatibility complex on antibody response in F₁ and F₂ crosses of chicken lines

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M.H. Pinard

Divergent selection for immune responsiveness in chickens: estimation of realized heritability with an animal model1

Effect of Divergent Selection for Immune Responsiveness and of Major Histocompatibility Complex on Resistance to Marek's Disease in Chickens

Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Divergent selection for humoral immune responsiveness in chickens: distribution and effects of major histocompatibility complex types

Effects of major histocompatibility complex on antibody response in F1 and F2 crosses of chicken lines

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Effects of major histocompatibility complex on antibody response in F₁ and F₂ crosses of chicken lines