The impact of different genetic models on the optimum design of crossbreeding experiment

The impact of different genetic models on the optimum design of crossbreeding experiment

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A method for the iterative set-up of optimum designs for crossbreeding experiments was used to study the robustness of designs to differences in the biological interpretation of two-locus epistatic interaction. Designs could be found which are efficient for the estimation of genetic models including, alternatively, seven different types of epistatic effects. Also, the design efficiency of a large-scale beef cattle crossbreeding experiment between Angus and Hereford cattle conducted at the Clay Center Nebraska, and reported by Koch, Dickerson, Cundiff and Gregory (1985) was investigated and found to be high (proportionately 0.88 of the optimum). It was concluded that choice of the right genetic groups (i.e. types of crossbreds) seems to be more important for a good design than the exact number of observations allocated to each group

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Main Author: 120320 Solkner, J.
Format: biblioteca
Published: 1991
Subjects:GANADO DE CARNE, GENETICA, CRUZAMIENTO, INVESTIGACION, METODOLOGIA, ESTADOS UNIDOS DE AMERICA,
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id KOHA-OAI-BVE:44051
record_format koha
spelling KOHA-OAI-BVE:440512020-02-03T21:07:36ZThe impact of different genetic models on the optimum design of crossbreeding experiment 120320 Solkner, J. 1991A method for the iterative set-up of optimum designs for crossbreeding experiments was used to study the robustness of designs to differences in the biological interpretation of two-locus epistatic interaction. Designs could be found which are efficient for the estimation of genetic models including, alternatively, seven different types of epistatic effects. Also, the design efficiency of a large-scale beef cattle crossbreeding experiment between Angus and Hereford cattle conducted at the Clay Center Nebraska, and reported by Koch, Dickerson, Cundiff and Gregory (1985) was investigated and found to be high (proportionately 0.88 of the optimum). It was concluded that choice of the right genetic groups (i.e. types of crossbreds) seems to be more important for a good design than the exact number of observations allocated to each groupA method for the iterative set-up of optimum designs for crossbreeding experiments was used to study the robustness of designs to differences in the biological interpretation of two-locus epistatic interaction. Designs could be found which are efficient for the estimation of genetic models including, alternatively, seven different types of epistatic effects. Also, the design efficiency of a large-scale beef cattle crossbreeding experiment between Angus and Hereford cattle conducted at the Clay Center Nebraska, and reported by Koch, Dickerson, Cundiff and Gregory (1985) was investigated and found to be high (proportionately 0.88 of the optimum). It was concluded that choice of the right genetic groups (i.e. types of crossbreds) seems to be more important for a good design than the exact number of observations allocated to each groupGANADO DE CARNEGENETICACRUZAMIENTOINVESTIGACIONMETODOLOGIAESTADOS UNIDOS DE AMERICAAnimal Production (RU)
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
topic GANADO DE CARNE
GENETICA
CRUZAMIENTO
INVESTIGACION
METODOLOGIA
ESTADOS UNIDOS DE AMERICA
GANADO DE CARNE
GENETICA
CRUZAMIENTO
INVESTIGACION
METODOLOGIA
ESTADOS UNIDOS DE AMERICA
spellingShingle GANADO DE CARNE
GENETICA
CRUZAMIENTO
INVESTIGACION
METODOLOGIA
ESTADOS UNIDOS DE AMERICA
GANADO DE CARNE
GENETICA
CRUZAMIENTO
INVESTIGACION
METODOLOGIA
ESTADOS UNIDOS DE AMERICA
120320 Solkner, J.
The impact of different genetic models on the optimum design of crossbreeding experiment
description A method for the iterative set-up of optimum designs for crossbreeding experiments was used to study the robustness of designs to differences in the biological interpretation of two-locus epistatic interaction. Designs could be found which are efficient for the estimation of genetic models including, alternatively, seven different types of epistatic effects. Also, the design efficiency of a large-scale beef cattle crossbreeding experiment between Angus and Hereford cattle conducted at the Clay Center Nebraska, and reported by Koch, Dickerson, Cundiff and Gregory (1985) was investigated and found to be high (proportionately 0.88 of the optimum). It was concluded that choice of the right genetic groups (i.e. types of crossbreds) seems to be more important for a good design than the exact number of observations allocated to each group
format
topic_facet GANADO DE CARNE
GENETICA
CRUZAMIENTO
INVESTIGACION
METODOLOGIA
ESTADOS UNIDOS DE AMERICA
author 120320 Solkner, J.
author_facet 120320 Solkner, J.
author_sort 120320 Solkner, J.
title The impact of different genetic models on the optimum design of crossbreeding experiment
title_short The impact of different genetic models on the optimum design of crossbreeding experiment
title_full The impact of different genetic models on the optimum design of crossbreeding experiment
title_fullStr The impact of different genetic models on the optimum design of crossbreeding experiment
title_full_unstemmed The impact of different genetic models on the optimum design of crossbreeding experiment
title_sort impact of different genetic models on the optimum design of crossbreeding experiment
publishDate 1991
work_keys_str_mv AT 120320solknerj theimpactofdifferentgeneticmodelsontheoptimumdesignofcrossbreedingexperiment
AT 120320solknerj impactofdifferentgeneticmodelsontheoptimumdesignofcrossbreedingexperiment
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