MOESM3 of Prediction of the reliability of genomic breeding values for crossbred performance

Data from: An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Yvonne C. J.
Bijma, Piter
Veerkamp, Roel F.
Calus, Mario P. L.

December 2015

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Y.C.J.
Bijma, P.
Veerkamp, R.F.
Calus, M.P.L.

January 2016

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

MOESM2 of Estimating the purebred-crossbred genetic correlation of body weight in broiler chickens with pedigree or genomic relationships

Pascal Duenk (5099519)
Mario Calus (3505235)
Yvonne Wientjes (6087926)
Vivian Breen (6381263)
John Henshall (6381266)
Rachel Hawken (3569102)
Piter Bijma (153734)

February 2019

Additional file 2. Estimates of variance components for CB performance of BW35 from models that eith...

Prediction of the reliability of genomic breeding values for crossbred performance

Vandenplas, Jérémie
Windig, Jack J.
Calus, Mario P.L.

January 2017

Background: In crossbreeding programs, various genomic prediction models have been proposed for usin...

MOESM2 of Genomic prediction of crossbred performance based on purebred Landrace and Yorkshire data using a dominance model

Hadi Esfandyari (3554099)
Piter Bijma (153734)
Mark Henryon (307775)
Ole Christensen (3515954)
Anders SĂ¸rensen (3554102)

June 2016

Additional file 2. Distribution of estimated additive and dominance effects of SNPs. Distribution of...

MOESM2 of A crossbred reference population can improve the response to genomic selection for crossbred performance

Hadi Esfandyari (3554099)
Anders SĂ¸rensen (3554102)
Piter Bijma (153734)

September 2015

Additional file 2. Comparison of Scenario 1 with an additive scenario. We compared the performance o...

MOESM1 of Genomic prediction of crossbred performance based on purebred Landrace and Yorkshire data using a dominance model

Hadi Esfandyari (3554099)
Piter Bijma (153734)
Mark Henryon (307775)
Ole Christensen (3515954)
Anders SĂ¸rensen (3554102)

June 2016

Additional file 1. Within-line prediction accuracy. Results for within-line prediction accuracy for ...

MOESM1 of A crossbred reference population can improve the response to genomic selection for crossbred performance

Hadi Esfandyari (3554099)
Anders SĂ¸rensen (3554102)
Piter Bijma (153734)

September 2015

Additional file 1. Partitioning accuracies of breeding values due to additive and dominance effects ...

MOESM1 of Assigning breed origin to alleles in crossbred animals

Jérémie Vandenplas (3583433)
Mario Calus (3505235)
Claudia Sevillano (3550535)
Jack Windig (3562298)
John Bastiaansen (3452135)

August 2016

Additional file 1. Table S1: Percentages of alleles correctly assigned a breed origin (%correct), in...

MOESM3 of Systematic genotyping of groups of cows to improve genomic estimated breeding values of selection candidates

Laura Plieschke (3573248)
Christian Edel (167478)
Eduardo Pimentel (3573242)
Reiner Emmerling (167481)
JĂśrn Bennewitz (3565571)
Kay-Uwe GĂśtz (3573245)

September 2016

Additional file 3: Tables S1 and S2. More detailed results on validation reliabilities (Ď2) (Table ...

MOESM1 of Balanced selection on purebred and crossbred performance increases gain in crossbreds

Hadi Esfandyari (3554099)
Peer Berg (3212316)
Anders SĂ¸rensen (3554102)

March 2018

Additional file 1. Mean crossbred performance, mean phenotype of pure breeds and heterosis in crossb...

Genomic selection for crossbred performance accounting for breed-specific effects

Soares Lopes, Marcos
Bovenhuis, Henk
Marubayashi Hidalgo, Andre
Arendonk, Johan A.M., Van
Knol, Egbert F.
Bastiaansen, John W.M.

January 2017

Background: Breed-specific effects are observed when the same allele of a given genetic marker has a...

MOESM1 of Effects of heterozygosity on performance of purebred and crossbred pigs

Maja Iversen (6413510)
Ăyvind NordbĂ¸ (6413519)
Eli Gjerlaug-Enger (6413516)
Eli Grindflek (4021472)
Marcos Lopes (3570038)
Theo Meuwissen (3559763)

March 2019

Additional file 1: Table S1. Base models for Norwegian Landrace. Table S2. Base models for Dutch Lan...

Genomic evaluation for a three-way crossbreeding system considering breed-of-origin of alleles

Sevillano del Aguila, Claudia
Vandenplas, Jeremie
Bastiaansen, John W.M.
Bergsma, Rob
Calus, Mario P.L.

January 2017

Background: Genomic prediction of purebred animals for crossbred performance can be based on a model...

Genetics of crossbreeding

Duenk, Pascal

January 2020

In pig and poultry breeding programs, animals from genetically distinct purebred breeding lines are ...

Data from: An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Yvonne C. J.
Bijma, Piter
Veerkamp, Roel F.
Calus, Mario P. L.

December 2015

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Y.C.J.
Bijma, P.
Veerkamp, R.F.
Calus, M.P.L.

January 2016

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

MOESM2 of Estimating the purebred-crossbred genetic correlation of body weight in broiler chickens with pedigree or genomic relationships

Pascal Duenk (5099519)
Mario Calus (3505235)
Yvonne Wientjes (6087926)
Vivian Breen (6381263)
John Henshall (6381266)
Rachel Hawken (3569102)
Piter Bijma (153734)

February 2019

Additional file 2. Estimates of variance components for CB performance of BW35 from models that eith...

Prediction of the reliability of genomic breeding values for crossbred performance

Vandenplas, Jérémie
Windig, Jack J.
Calus, Mario P.L.

January 2017

Background: In crossbreeding programs, various genomic prediction models have been proposed for usin...

MOESM2 of Genomic prediction of crossbred performance based on purebred Landrace and Yorkshire data using a dominance model

Hadi Esfandyari (3554099)
Piter Bijma (153734)
Mark Henryon (307775)
Ole Christensen (3515954)
Anders SĂ¸rensen (3554102)

June 2016

Additional file 2. Distribution of estimated additive and dominance effects of SNPs. Distribution of...

MOESM2 of A crossbred reference population can improve the response to genomic selection for crossbred performance

Hadi Esfandyari (3554099)
Anders SĂ¸rensen (3554102)
Piter Bijma (153734)

September 2015

Additional file 2. Comparison of Scenario 1 with an additive scenario. We compared the performance o...

MOESM1 of Genomic prediction of crossbred performance based on purebred Landrace and Yorkshire data using a dominance model

Hadi Esfandyari (3554099)
Piter Bijma (153734)
Mark Henryon (307775)
Ole Christensen (3515954)
Anders SĂ¸rensen (3554102)

June 2016

Additional file 1. Within-line prediction accuracy. Results for within-line prediction accuracy for ...

MOESM1 of A crossbred reference population can improve the response to genomic selection for crossbred performance

Hadi Esfandyari (3554099)
Anders SĂ¸rensen (3554102)
Piter Bijma (153734)

September 2015

Additional file 1. Partitioning accuracies of breeding values due to additive and dominance effects ...

MOESM1 of Assigning breed origin to alleles in crossbred animals

Jérémie Vandenplas (3583433)
Mario Calus (3505235)
Claudia Sevillano (3550535)
Jack Windig (3562298)
John Bastiaansen (3452135)

August 2016

Additional file 1. Table S1: Percentages of alleles correctly assigned a breed origin (%correct), in...

MOESM3 of Systematic genotyping of groups of cows to improve genomic estimated breeding values of selection candidates

Laura Plieschke (3573248)
Christian Edel (167478)
Eduardo Pimentel (3573242)
Reiner Emmerling (167481)
JĂśrn Bennewitz (3565571)
Kay-Uwe GĂśtz (3573245)

September 2016

Additional file 3: Tables S1 and S2. More detailed results on validation reliabilities (Ď2) (Table ...

MOESM1 of Balanced selection on purebred and crossbred performance increases gain in crossbreds

Hadi Esfandyari (3554099)
Peer Berg (3212316)
Anders SĂ¸rensen (3554102)

March 2018

Additional file 1. Mean crossbred performance, mean phenotype of pure breeds and heterosis in crossb...

Genomic selection for crossbred performance accounting for breed-specific effects

Soares Lopes, Marcos
Bovenhuis, Henk
Marubayashi Hidalgo, Andre
Arendonk, Johan A.M., Van
Knol, Egbert F.
Bastiaansen, John W.M.

January 2017

Background: Breed-specific effects are observed when the same allele of a given genetic marker has a...

MOESM1 of Effects of heterozygosity on performance of purebred and crossbred pigs

Maja Iversen (6413510)
Ăyvind NordbĂ¸ (6413519)
Eli Gjerlaug-Enger (6413516)
Eli Grindflek (4021472)
Marcos Lopes (3570038)
Theo Meuwissen (3559763)

March 2019

Additional file 1: Table S1. Base models for Norwegian Landrace. Table S2. Base models for Dutch Lan...

Genomic evaluation for a three-way crossbreeding system considering breed-of-origin of alleles

Sevillano del Aguila, Claudia
Vandenplas, Jeremie
Bastiaansen, John W.M.
Bergsma, Rob
Calus, Mario P.L.

January 2017

Background: Genomic prediction of purebred animals for crossbred performance can be based on a model...

Genetics of crossbreeding

Duenk, Pascal

January 2020

In pig and poultry breeding programs, animals from genetically distinct purebred breeding lines are ...

Data from: An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Yvonne C. J.
Bijma, Piter
Veerkamp, Roel F.
Calus, Mario P. L.

December 2015

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

An equation to predict the accuracy of genomic values by combining data from multiple traits, populations, or environments

Wientjes, Y.C.J.
Bijma, P.
Veerkamp, R.F.
Calus, M.P.L.

January 2016

Predicting the accuracy of estimated genomic values using genome-wide marker information is an impor...

MOESM2 of Estimating the purebred-crossbred genetic correlation of body weight in broiler chickens with pedigree or genomic relationships

Pascal Duenk (5099519)
Mario Calus (3505235)
Yvonne Wientjes (6087926)
Vivian Breen (6381263)
John Henshall (6381266)
Rachel Hawken (3569102)
Piter Bijma (153734)

February 2019

Additional file 2. Estimates of variance components for CB performance of BW35 from models that eith...

MOESM3 of Prediction of the reliability of genomic breeding values for crossbred performance

Abstract

Extracted data

MOESM3 of Prediction of the reliability of genomic breeding values for crossbred performance

Abstract

Extracted data

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