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QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel

BACKGROUND: Coccidiosis is a major parasitic disease that causes huge economic losses to the poultry industry. Its pathogenicity leads to depression of body weight gain, lesions and, in the most serious cases, death in affected animals. Genetic variability for resistance to coccidiosis in the chicke...

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Autores principales: Bacciu, Nicola, Bed’Hom, Bertrand, Filangi, Olivier, Romé, Hélène, Gourichon, David, Répérant, Jean-Michel, Le Roy, Pascale, Pinard-van der Laan, Marie-Hélène, Demeure, Olivier
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3936936/
https://www.ncbi.nlm.nih.gov/pubmed/24552175
http://dx.doi.org/10.1186/1297-9686-46-14
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author Bacciu, Nicola
Bed’Hom, Bertrand
Filangi, Olivier
Romé, Hélène
Gourichon, David
Répérant, Jean-Michel
Le Roy, Pascale
Pinard-van der Laan, Marie-Hélène
Demeure, Olivier
author_facet Bacciu, Nicola
Bed’Hom, Bertrand
Filangi, Olivier
Romé, Hélène
Gourichon, David
Répérant, Jean-Michel
Le Roy, Pascale
Pinard-van der Laan, Marie-Hélène
Demeure, Olivier
author_sort Bacciu, Nicola
collection PubMed
description BACKGROUND: Coccidiosis is a major parasitic disease that causes huge economic losses to the poultry industry. Its pathogenicity leads to depression of body weight gain, lesions and, in the most serious cases, death in affected animals. Genetic variability for resistance to coccidiosis in the chicken has been demonstrated and if this natural resistance could be exploited, it would reduce the costs of the disease. Previously, a design to characterize the genetic regulation of Eimeria tenella resistance was set up in a Fayoumi × Leghorn F(2) cross. The 860 F(2) animals of this design were phenotyped for weight gain, plasma coloration, hematocrit level, intestinal lesion score and body temperature. In the work reported here, the 860 animals were genotyped for a panel of 1393 (157 microsatellites and 1236 single nucleotide polymorphism (SNP) markers that cover the sequenced genome (i.e. the 28 first autosomes and the Z chromosome). In addition, with the aim of finding an index capable of explaining a large amount of the variance associated with resistance to coccidiosis, a composite factor was derived by combining the variables of all these traits in a single variable. QTL detection was performed by linkage analysis using GridQTL and QTLMap. Single and multi-QTL models were applied. RESULTS: Thirty-one QTL were identified i.e. 27 with the single-QTL model and four with the multi-QTL model and the average confidence interval was 5.9 cM. Only a few QTL were common with the previous study that used the same design but focused on the 260 more extreme animals that were genotyped with the 157 microsatellites only. Major differences were also found between results obtained with QTLMap and GridQTL. CONCLUSIONS: The medium-density SNP panel made it possible to genotype new regions of the chicken genome (including micro-chromosomes) that were involved in the genetic control of the traits investigated. This study also highlights the strong variations in QTL detection between different models and marker densities.
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spelling pubmed-39369362014-02-28 QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel Bacciu, Nicola Bed’Hom, Bertrand Filangi, Olivier Romé, Hélène Gourichon, David Répérant, Jean-Michel Le Roy, Pascale Pinard-van der Laan, Marie-Hélène Demeure, Olivier Genet Sel Evol Research BACKGROUND: Coccidiosis is a major parasitic disease that causes huge economic losses to the poultry industry. Its pathogenicity leads to depression of body weight gain, lesions and, in the most serious cases, death in affected animals. Genetic variability for resistance to coccidiosis in the chicken has been demonstrated and if this natural resistance could be exploited, it would reduce the costs of the disease. Previously, a design to characterize the genetic regulation of Eimeria tenella resistance was set up in a Fayoumi × Leghorn F(2) cross. The 860 F(2) animals of this design were phenotyped for weight gain, plasma coloration, hematocrit level, intestinal lesion score and body temperature. In the work reported here, the 860 animals were genotyped for a panel of 1393 (157 microsatellites and 1236 single nucleotide polymorphism (SNP) markers that cover the sequenced genome (i.e. the 28 first autosomes and the Z chromosome). In addition, with the aim of finding an index capable of explaining a large amount of the variance associated with resistance to coccidiosis, a composite factor was derived by combining the variables of all these traits in a single variable. QTL detection was performed by linkage analysis using GridQTL and QTLMap. Single and multi-QTL models were applied. RESULTS: Thirty-one QTL were identified i.e. 27 with the single-QTL model and four with the multi-QTL model and the average confidence interval was 5.9 cM. Only a few QTL were common with the previous study that used the same design but focused on the 260 more extreme animals that were genotyped with the 157 microsatellites only. Major differences were also found between results obtained with QTLMap and GridQTL. CONCLUSIONS: The medium-density SNP panel made it possible to genotype new regions of the chicken genome (including micro-chromosomes) that were involved in the genetic control of the traits investigated. This study also highlights the strong variations in QTL detection between different models and marker densities. BioMed Central 2014-02-19 /pmc/articles/PMC3936936/ /pubmed/24552175 http://dx.doi.org/10.1186/1297-9686-46-14 Text en Copyright © 2014 Bacciu et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited.
spellingShingle Research
Bacciu, Nicola
Bed’Hom, Bertrand
Filangi, Olivier
Romé, Hélène
Gourichon, David
Répérant, Jean-Michel
Le Roy, Pascale
Pinard-van der Laan, Marie-Hélène
Demeure, Olivier
QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title_full QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title_fullStr QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title_full_unstemmed QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title_short QTL detection for coccidiosis (Eimeria tenella) resistance in a Fayoumi × Leghorn F(2) cross, using a medium-density SNP panel
title_sort qtl detection for coccidiosis (eimeria tenella) resistance in a fayoumi × leghorn f(2) cross, using a medium-density snp panel
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3936936/
https://www.ncbi.nlm.nih.gov/pubmed/24552175
http://dx.doi.org/10.1186/1297-9686-46-14
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