Epistasis and covariance: how gene interaction translates into genomic relationship
Key message Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
Epistasis and covariance: how gene interaction translates into genomic relationship
JWR Martini, V Wimmer, M Erbe, H Simianer - Theoretical and Applied …, 2016 - infona.pl
Key message Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
Epistasis and covariance: how gene interaction translates into genomic relationship
JWR Martini, V Wimmer, M Erbe… - TAG. Theoretical and …, 2016 - pubmed.ncbi.nlm.nih.gov
Models based on additive marker effects and on epistatic interactions can be translated into
genomic relationship models. This equivalence allows to perform predictions based on …
genomic relationship models. This equivalence allows to perform predictions based on …
Epistasis and covariance: how gene interaction translates into genomic relationship.
JW Martini, V Wimmer, M Erbe… - TAG. Theoretical and …, 2016 - europepmc.org
Models based on additive marker effects and on epistatic interactions can be translated into
genomic relationship models. This equivalence allows to perform predictions based on …
genomic relationship models. This equivalence allows to perform predictions based on …
Epistasis and covariance: how gene interaction translates into genomic relationship
W Johannes, R Martini, V Wimmer… - Theoretical and …, 2016 - search.proquest.com
In the theory of genome-assisted prediction, the equivalence of a linear model based on
independent and identically normally distributed marker effects and a model based on …
independent and identically normally distributed marker effects and a model based on …
Epistasis and covariance: how gene interaction translates into genomic relationship.
JWR Martini, V Wimmer, M Erbe, H Simianer - 2016 - cabidigitallibrary.org
Key message: Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
[PDF][PDF] Epistasis and covariance: how gene interaction translates into genomic relationship
JWR Martini, V Wimmer, M Erbe, H Simianer - Theor Appl Genet, 2016 - researchgate.net
Key message Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
Epistasis and covariance: how gene interaction translates into genomic relationship
JWR Martini, V Wimmer, M Erbe, H Simianer - 2016 - publications.goettingen-research …
Key message Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
Epistasis and covariance: how gene interaction translates into genomic relationship
JWR Martini, V Wimmer, M Erbe… - Theoretical and Applied …, 2016 - go.gale.com
Key message Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …
Epistasis and covariance: how gene interaction translates into genomic relationship.
J Martini, V Wimmer, M Erbe… - Theoretical & Applied …, 2016 - search.ebscohost.com
Key message: Models based on additive marker effects and on epistatic interactions can be
translated into genomic relationship models. This equivalence allows to perform predictions …
translated into genomic relationship models. This equivalence allows to perform predictions …