Method for the estimation of genetic merit of animals with uncertain paternity under Bayesian inference
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 116-123, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

Necessary changes to improve animal models
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 124-131, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

Contributions to quantitative genetic models by Yule and by Weinberg prior to Fisher 1918
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 93-94, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 95-96, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page i-iv, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 116-123, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 124-131, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 93-94, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 25, 2018 Category: Genetics & Stem Cells Source Type: research

Gender differences for growth in North American Atlantic salmon
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 132-137, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 7, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics, Ahead of Print. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - March 7, 2018 Category: Genetics & Stem Cells Source Type: research

Reducing bias in the dairy cattle single ‐step genomic evaluation by ignoring bulls without progeny
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 107-115, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - February 27, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics, Ahead of Print. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - February 27, 2018 Category: Genetics & Stem Cells Source Type: research

Comparing deregression methods for genomic prediction of test ‐day traits in dairy cattle
Journal of Animal Breeding and Genetics,Volume 135, Issue 2, Page 97-106, April 2018. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - February 26, 2018 Category: Genetics & Stem Cells Source Type: research

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Journal of Animal Breeding and Genetics, Ahead of Print. (Source: Journal of Animal Breeding and Genetics)
Source: Journal of Animal Breeding and Genetics - February 26, 2018 Category: Genetics & Stem Cells Source Type: research

Gender differences for growth in North American Atlantic salmon
Summary An assumption in aquaculture of Atlantic salmon is that male and female growth within families is perfectly genetically correlated. That is, families would rank identically if based on male growth only or female growth only. Also, growth in freshwater and sea water is assumed to be highly correlated between males and females within families. However, structural analysis of the DNA of Atlantic salmon has found that the linkage maps of females differ significantly from that of males. Genetic variability for any trait measured on females could be greater or lesser than on males. Thus, male and female growth might be c...
Source: Journal of Animal Breeding and Genetics - February 1, 2018 Category: Genetics & Stem Cells Authors: L. Schaeffer, J. J. Tosh, K.P. Ang, J.A.K. Elliott, M. Herlin, F. Powell, E. G. Boulding Tags: ORIGINAL ARTICLE Source Type: research