Your search keyword '"Burlot T"' showing total 12 results

1. Host genetics drives differences in cecal microbiota composition and immune traits of laying hens raised in the same environment.

Author

Lecoeur A, Blanc F, Gourichon D, Bruneau N, Burlot T, Pinard-van der Laan MH, and Calenge F

Subjects

Animals, Female, Poultry Diseases microbiology, Poultry Diseases immunology, Newcastle Disease immunology, Vaccination veterinary, RNA, Ribosomal, 16S analysis, RNA, Ribosomal, 16S genetics, Chickens immunology, Chickens genetics, Chickens microbiology, Gastrointestinal Microbiome, Newcastle disease virus immunology, Viral Vaccines immunology, Cecum microbiology, Cecum immunology

Abstract

Vaccination is one of the most effective strategies for preventing infectious diseases but individual vaccine responses are highly heterogeneous. Host genetics and gut microbiota composition are 2 likely drivers of this heterogeneity. We studied 94 animals belonging to 4 lines of laying hens: a White Leghorn experimental line genetically selected for a high antibody response against the Newcastle Disease Virus (NDV) vaccine (ND3) and its unselected control line (CTR), and 2 commercial lines (White Leghorn [LEG] and Rhode Island Red [RIR]). Animals were reared in the same conditions from hatching to 42 d of age, and animals from different genetic lines were mixed. Animals were vaccinated at 22 d of age and their humoral vaccine response against NDV was assessed by hemagglutination inhibition assay and ELISA from blood samples collected at 15, 19, and 21 d after vaccination. The immune parameters studied were the 3 immunoglobulins subtypes A, M, and Y and the blood cell composition was assessed by flow cytometry. The composition of the cecal microbiota was assessed at the end of the experiment by analyzing amplified 16S rRNA gene sequences to obtain amplicon sequence variants (ASV). The 4 lines showed significantly different levels of NDV vaccine response at the 3 measured points, with, logically, a higher response of the genetically selected ND3 line, and intermediate and low responses for the unselected CTR control line and for the 2 commercial lines, respectively. The ND3 line displayed also a higher proportion of immunoglobulins (IgA, IgM, and IgY). The RIR line showed the most different blood cell composition. The 4 lines showed significantly different microbiota characteristics: composition, abundances at all taxonomic levels, and correlations between genera and vaccine response. The tested genetic lines differ for immune parameters and gut microbiota composition and functions. These phenotypic differences can be attributed to genetic differences between lines. Causal relationships between both types of parameters are discussed and will be investigated in further studies., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

2. Restriction site-associated DNA sequencing technologies as an alternative to low-density SNP chips for genomic selection: a simulation study in layer chickens.

Author

Herry F, Hérault F, Lecerf F, Lagoutte L, Doublet M, Picard-Druet D, Bardou P, Varenne A, Burlot T, Le Roy P, and Allais S

Subjects

Animals, Genome, Genomics methods, Genotype, Sequence Analysis, DNA, Polymorphism, Single Nucleotide, Chickens genetics

Abstract

Background: To reduce the cost of genomic selection, a low-density (LD) single nucleotide polymorphism (SNP) chip can be used in combination with imputation for genotyping selection candidates instead of using a high-density (HD) SNP chip. Next-generation sequencing (NGS) techniques have been increasingly used in livestock species but remain expensive for routine use for genomic selection. An alternative and cost-efficient solution is to use restriction site-associated DNA sequencing (RADseq) techniques to sequence only a fraction of the genome using restriction enzymes. From this perspective, use of RADseq techniques followed by an imputation step on HD chip as alternatives to LD chips for genomic selection was studied in a pure layer line., Results: Genome reduction and sequencing fragments were identified on reference genome using four restriction enzymes (EcoRI, TaqI, AvaII and PstI) and a double-digest RADseq (ddRADseq) method (TaqI-PstI). The SNPs contained in these fragments were detected from the 20X sequence data of the individuals in our population. Imputation accuracy on HD chip with these genotypes was assessed as the mean correlation between true and imputed genotypes. Several production traits were evaluated using single-step GBLUP methodology. The impact of imputation errors on the ranking of the selection candidates was assessed by comparing a genomic evaluation based on ancestry using true HD or imputed HD genotyping. The relative accuracy of genomic estimated breeding values (GEBVs) was investigated by considering the GEBVs estimated on offspring as a reference. With AvaII or PstI and ddRADseq with TaqI and PstI, more than 10 K SNPs were detected in common with the HD SNP chip, resulting in an imputation accuracy greater than 0.97. The impact of imputation errors on genomic evaluation of the breeders was reduced, with a Spearman correlation greater than 0.99. Finally, the relative accuracy of GEBVs was equivalent., Conclusions: RADseq approaches can be interesting alternatives to low-density SNP chips for genomic selection. With more than 10 K SNPs in common with the SNPs of the HD SNP chip, good imputation and genomic evaluation results can be obtained. However, with real data, heterogeneity between individuals with missing data must be considered., (© 2023. The Author(s).)

Published

2023

3. Nest preference and laying duration traits to select against floor eggs in laying hens.

Author

Bécot L, Bédère N, Coton J, Burlot T, and Le Roy P

Subjects

Animals, Female, Housing, Animal, Oviposition genetics, Eggs, Chickens genetics, Animal Husbandry methods

Abstract

Background: Floor eggs, which are defined as eggs that hens lay off-nest, are a major issue in cage-free layer poultry systems. They create additional work for farmers because they must be collected by hand. They are also usually soiled or broken, which results in economic losses. Nonetheless, knowledge about the genetics of nesting behavior is limited. The aim of this study was to estimate genetic parameters for traits related to nest preference for laying and to time spent in the nests used for laying (laying duration)., Methods: Two pure lines of laying hens were studied: 927 Rhode Island Red and 980 White Leghorn. Electronic nests were used to record the nesting behavior of these hens in floor pens from 24 to 64 weeks of age. Nest preference was studied based on the mean distance between nests used for laying and the percentage of nests used for laying. Laying duration was studied based on mean laying duration, mean duration in the nest before laying, and mean duration in the nest after laying. Genetic parameters were estimated for each line using a restricted maximum-likelihood method applied to a pedigree-based multi-trait animal model., Results: Estimates of genetic parameters were similar for the two lines. Estimates of heritability ranged from 0.18 to 0.37 for nest preference traits and from 0.54 to 0.70 for laying duration traits. Estimates of genetic correlations of these traits with clutch number or mean oviposition time were favorable. Positive genetic correlations were estimated between nest preference and laying rate in the nests or nest acceptance for laying (+ 0.06 to + 0.37)., Conclusions: These results show that genetics influences traits related to nest preference and laying duration. Selecting hens that have no preference for particular nests and spend little time laying in the nests could help optimize nest use, reduce their occupation rate, and thus decrease the incidence of floor eggs in cage-free systems. Genetic correlations of these traits with other traits of interest related to hen welfare and egg quality have yet to be estimated., (© 2023. The Author(s).)

Published

2023

4. Interest of using imputation for genomic evaluation in layer chicken.

Author

Herry F, Druet DP, Hérault F, Varenne A, Burlot T, Le Roy P, and Allais S

Subjects

Animals, Breeding, Genetic Markers, Genome, Oligonucleotide Array Sequence Analysis economics, Oligonucleotide Array Sequence Analysis methods, Sensitivity and Specificity, Chickens genetics, Genomics methods, Oligonucleotide Array Sequence Analysis veterinary, Polymorphism, Single Nucleotide

Abstract

With the availability of the 600K Affymetrix Axiom high-density (HD) single nucleotide polymorphism (SNP) chip, genomic selection has been implemented in broiler and layer chicken. However, the cost of this SNP chip is too high to genotype all selection candidates. A solution is to develop a low-density SNP chip, at a lower price, and to impute all missing markers. But to routinely implement this solution, the impact of imputation on genomic evaluation accuracy must be studied. It is also interesting to study the consequences of the use of low-density SNP chips in genomic evaluation accuracy. In this perspective, the interest of using imputation in genomic selection was studied in a pure layer line. Two low-density SNP chip designs were compared: an equidistant methodology and a methodology based on linkage disequilibrium. Egg weight, egg shell color, egg shell strength, and albumen height were evaluated with single-step genomic best linear unbiased prediction methodology. The impact of imputation errors or the absence of imputation on the ranking of the male selection candidates was assessed with a genomic evaluation based on ancestry. Thus, genomic estimated breeding values (GEBV) obtained with imputed HD genotypes or low-density genotypes were compared with GEBV obtained with the HD SNP chip. The relative accuracy of GEBV was also investigated by considering as reference GEBV estimated on the offspring. A limited reordering of the breeders, selected on a multitrait index, was observed. Spearman correlations between GEBV on HD genotypes and GEBV on low-density genotypes (with or without imputation) were always higher than 0.94 with more than 3K SNP. For the genetically closer, top 150 individuals for a specific trait, with imputation, the reordering was reduced with correlation higher than 0.94 with more than 3K SNP. Without imputation, the correlations remained lower than 0.85 with less than 3K and 16K SNP for equidistant and linkage disequilibrium methodology, respectively. The differences in GEBV correlations between both methodologies were never significant. The conclusions were the same for all studied traits., (Copyright © 2020. Published by Elsevier Inc.)

Published

2020

5. Variations in genome size between wild and domesticated lineages of fowls belonging to the Gallus gallus species.

Author

Piégu B, Arensburger P, Beauclair L, Chabault M, Raynaud E, Coustham V, Brard S, Guizard S, Burlot T, Le Bihan-Duval E, and Bigot Y

Subjects

Animals, Centromere genetics, Gene Duplication, RNA, Ribosomal genetics, Tandem Repeat Sequences, Telomere genetics, Breeding, Chickens genetics, Domestication, Genome Size, Polymorphism, Genetic

Abstract

Efforts to elucidate the causes of biological differences between wild fowls and their domesticated relatives, the chicken, have to date mainly focused on the identification of single nucleotide mutations. Other types of genomic variations have however been demonstrated to be important in avian evolution and associated to variations in phenotype. They include several types of sequences duplicated in tandem that can vary in their repetition number. Here we report on genome size differences between the red jungle fowl and several domestic chicken breeds and selected lines. Sequences duplicated in tandem such as rDNA, telomere repeats, satellite DNA and segmental duplications were found to have been significantly re-shaped during domestication and subsequently by human-mediated selection. We discuss the extent to which changes in genome organization that occurred during domestication agree with the hypothesis that domesticated animal genomes have been shaped by evolutionary forces aiming to adapt them to anthropized environments., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

6. Design of low density SNP chips for genotype imputation in layer chicken.

Author

Herry F, Hérault F, Picard Druet D, Varenne A, Burlot T, Le Roy P, and Allais S

Subjects

Animals, Chickens growth & development, Chromosomes, Gene Frequency, Genotype, Linkage Disequilibrium, Chickens genetics, Oligonucleotide Array Sequence Analysis methods, Polymorphism, Single Nucleotide

Abstract

Background: The main goal of selection is to achieve genetic gain for a population by choosing the best breeders among a set of selection candidates. Since 2013, the use of a high density genotyping chip (600K Affymetrix® Axiom® HD genotyping array) for chicken has enabled the implementation of genomic selection in layer and broiler breeding, but the genotyping costs remain high for a routine use on a large number of selection candidates. It has thus been deemed interesting to develop a low density genotyping chip that would induce lower costs. In this perspective, various simulation studies have been conducted to find the best way to select a set of SNPs for low density genotyping of two laying hen lines., Results: To design low density SNP chips, two methodologies, based on equidistance (EQ) or on linkage disequilibrium (LD) were compared. Imputation accuracy was assessed as the mean correlation between true and imputed genotypes. The results showed correlations more sensitive to false imputation of SNPs having low Minor Allele Frequency (MAF) when the EQ methodology was used. An increase in imputation accuracy was obtained when SNP density was increased, either through an increase in the number of selected windows on a chromosome or through the rise of the LD threshold. Moreover, the results varied depending on the type of chromosome (macro or micro-chromosome). The LD methodology enabled to optimize the number of SNPs, by reducing the SNP density on macro-chromosomes and by increasing it on micro-chromosomes. Imputation accuracy also increased when the size of the reference population was increased. Conversely, imputation accuracy decreased when the degree of kinship between reference and candidate populations was reduced. Finally, adding selection candidates' dams in the reference population, in addition to their sire, enabled to get better imputation results., Conclusions: Whichever the SNP chip, the methodology, and the scenario studied, highly accurate imputations were obtained, with mean correlations higher than 0.83. The key point to achieve good imputation results is to take into account chicken lines' LD when designing a low density SNP chip, and to include the candidates' direct parents in the reference population.

Published

2018

7. Yolk hormones influence in ovo chemosensory learning, growth, and feeding behavior in domestic chicks.

Author

Bertin A, Meurisse M, Arnould C, Leterrier C, Constantin P, Cornilleau F, Vaudin P, Burlot T, Delaveau J, Rat C, and Calandreau L

Subjects

Androgens pharmacology, Animals, Animals, Newborn, Chick Embryo, Egg Yolk chemistry, Estrogens pharmacology, Female, Fish Oils, Food Preferences drug effects, Odorants, Pregnancy, Progestins pharmacology, Behavior, Animal drug effects, Chickens growth & development, Estradiol pharmacology, Feeding Behavior drug effects, Hormones pharmacology, Learning drug effects, Progesterone pharmacology, Testosterone pharmacology

Abstract

In this study, we assessed whether prenatal exposure to elevated yolk steroid hormones can influence in ovo chemosensory learning and the behavior of domestic chicks. We simulated a maternal environmental challenge by experimentally enhancing yolk progesterone, testosterone, and estradiol concentrations in hen eggs prior to incubation. The embryos from these hormones-treated eggs (HO) as well as sham embryos (O) that had received the vehicle-only were exposed to the odor of fish oil (menhaden) between embryonic Days 11 and 20. An additional group of control embryos (C) was not exposed to the odor. All chicks were tested following hatching for their feeding preferences between foods that were or were not odorized with the menhaden odor. In the 3-min choice tests, the behavior of O chicks differed significantly according to the type of food whereas C and HO chicks showed no preference between odorized and non-odorized food. Our result suggests weaker response in HO chicks. In addition, HO chicks showed impaired growth and reduced intake of an unfamiliar food on the 24-h time scale compared to controls. Our data suggest that embryonic exposure to increased yolk hormone levels can alter growth, chemosensory learning, and the development of feeding behaviors., (© 2015 Wiley Periodicals, Inc.)

Published

2016

8. GWAS analyses reveal QTL in egg layers that differ in response to diet differences.

Author

Romé H, Varenne A, Hérault F, Chapuis H, Alleno C, Dehais P, Vignal A, Burlot T, and Le Roy P

Subjects

Animals, Chickens genetics, Chromosome Mapping, Diet, Female, Gene-Environment Interaction, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Chickens physiology, Oviparity, Quantitative Trait Loci

Abstract

Background: The genetic architecture of egg production and egg quality traits, i.e. the quantitative trait loci (QTL) that influence these traits, is still poorly known. To date, 33 studies have focused on the detection of QTL for laying traits in chickens, but less than 10 genes have been identified. The availability of a high-density SNP (single nucleotide polymorphism) chicken array developed by Affymetrix, i.e. the 600K Affymetrix(®) Axiom(®) HD genotyping array offers the possibility to narrow down the localization of previously detected QTL and to detect new QTL. This high-density array is also anticipated to take research beyond the classical hypothesis of additivity of QTL effects or of QTL and environmental effects. The aim of our study was to search for QTL that influence laying traits using the 600K SNP chip and to investigate whether the effects of these QTL differed between diets and age at egg collection., Results: One hundred and thirty-one QTL were detected for 16 laying traits and were spread across all marked chromosomes, except chromosomes 16 and 25. The percentage of variance explained by a QTL varied from 2 to 10 % for the various traits, depending on diet and age at egg collection. Chromosomes 3, 9, 10 and Z were overrepresented, with more than eight QTL on each one. Among the 131 QTL, 60 had a significantly different effect, depending on diet or age at egg collection. For egg production traits, when the QTL × environment interaction was significant, numerous inversions of sign of the SNP effects were observed, whereas for egg quality traits, the QTL × environment interaction was mostly due to a difference of magnitude of the SNP effects., Conclusions: Our results show that numerous QTL influence egg production and egg quality traits and that the genomic regions, which are involved in shaping the ability of layer chickens to adapt to their environment for egg production, vary depending on the environmental conditions. The next question will be to address what the impact of these genotype × environment interactions is on selection.

Published

2015

9. An integrated approach of genetic resistance to Salmonella carrier state in fowls: from genetics to genomics and modelling.

Author

Beaumont C, Lecerf F, Protais J, Calenge F, Prevost K, Lalmanach AC, Chapuis H, Pitel F, Burlot T, Sellier N, Fravalo P, Vignal A, and Velge P

Subjects

Animals, Quantitative Trait Loci, Salmonella Infections, Animal immunology, Carrier State, Chickens genetics, Genomics, Salmonella Infections, Animal genetics

Abstract

Increasing resistance to acute Salmonellosis (that is, contamination level shortly after infection) is not sufficient to reduce the risk for consumers to be contaminated by Salmonella. Indeed, animals may remain contaminated at a low level for weeks or months. Increased resistance to the Salmonella carrier state, i.e., animals' ability to clear bacteria, is needed; it involves measuring bacterial contamination several weeks after inoculation with a low dose. To study such resistance traits, three convergent approaches were used. A quantitative trait loci (QTL) study was performed, taking advantage of inbred lines differing in resistance. Several QTLs controlling resistance at a younger age were identified and are currently being confirmed in a new cross before finer mapping, using advanced intercross lines. These inbred lines are also presently being compared using functional genomics. In parallel, a selection experiment for increased or decreased resistance at a younger and a later age was undertaken. Besides providing genetic models differing in their levels of resistance, it underlined the importance of the choice of selection criterion, whether marker assisted or not. Indeed, genes controlling resistance are strongly dependant on age; selecting for resistance at a younger age might result in increased susceptibility at an older age. Finally, the results of this experiment were used in a model of the intra-flock propagation of Salmonella. It showed that introducing a proportion of resistant animals within a flock of susceptible hens could dramatically change the evolution of contamination. Moreover, it demonstrated the magnitude of synergy between selection and vaccination, which should enhance the interest of increased resistance. The results show that selection for increased resistance to the Salmonella carrier state may be efficient, providing that the appropriate criteria of selection are used.

Published

2008

10. An integrated approach of genetic resistance to Salmonella carrier state in fowls: from genetics to genomics and modelling

Author

Beaumont, C., Lecerf, Frédéric, Protais, J., Calenge, F., Prevost, K., Lalmanach, A.C., Chapuis, H., Pitel, F., Burlot, T., Sellier, N., Fravalo, P., Vignal, A., Velge, P., Génétique Animale (GARen), Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Ecole Nationale Supérieure Agronomique de Rennes, Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST-Ecole Nationale Supérieure Agronomique de Rennes-IFR140, and IFR140-Ecole Nationale Supérieure Agronomique de Rennes-AGROCAMPUS OUEST-Institut National de la Recherche Agronomique (INRA)

Subjects

Salmonella Infections, Animal, MESH: Salmonella Infections, Animal, MESH: Genomics, Quantitative Trait Loci, MESH: Chickens, SALMONELLE, Genomics, SALMONELLA, MESH: Quantitative Trait Loci, [SDV.GEN.GA]Life Sciences [q-bio]/Genetics/Animal genetics, CARRIER-STATE RESISTANCE, Carrier State, RESISTANCE AU PORTAGE, Animals, POULTRY, MESH: Animals, VOLAILLE, MESH: Carrier State, Chickens

Abstract

Increasing resistance to acute Salmonellosis (that is, contamination level shortly after infection) is not sufficient to reduce the risk for consumers to be contaminated by Salmonella. Indeed, animals may remain contaminated at a low level for weeks or months. Increased resistance to the Salmonella carrier state, i.e., animals' ability to clear bacteria, is needed; it involves measuring bacterial contamination several weeks after inoculation with a low dose. To study such resistance traits, three convergent approaches were used. A quantitative trait loci (QTL) study was performed, taking advantage of inbred lines differing in resistance. Several QTLs controlling resistance at a younger age were identified and are currently being confirmed in a new cross before finer mapping, using advanced intercross lines. These inbred lines are also presently being compared using functional genomics. In parallel, a selection experiment for increased or decreased resistance at a younger and a later age was undertaken. Besides providing genetic models differing in their levels of resistance, it underlined the importance of the choice of selection criterion, whether marker assisted or not. Indeed, genes controlling resistance are strongly dependant on age; selecting for resistance at a younger age might result in increased susceptibility at an older age. Finally, the results of this experiment were used in a model of the intra-flock propagation of Salmonella. It showed that introducing a proportion of resistant animals within a flock of susceptible hens could dramatically change the evolution of contamination. Moreover, it demonstrated the magnitude of synergy between selection and vaccination, which should enhance the interest of increased resistance. The results show that selection for increased resistance to the Salmonella carrier state may be efficient, providing that the appropriate criteria of selection are used.

Published

2008

11. Résistance au portage de salmonelles : faisabilité d'une sélection en aviculture

Author

Sellier, Nadine, Beaumont, Catherine, Chapuis, Herve, Velge, Philippe, MARIE-ETANCELIN, Christel, Burlot, T., ProdInra, Migration, Unité de Recherches Avicoles (URA), and Institut National de la Recherche Agronomique (INRA)

Subjects

[SDV] Life Sciences [q-bio], CHICKENS, [SDV]Life Sciences [q-bio], DISEASE RESISTANCE, [INFO]Computer Science [cs], [INFO] Computer Science [cs], SALMONELLA

Published

2008

12. An integrated approach of genetic resistance to salmonella carrier-state in fowls: from genetics to genomics and modelization

Author

Catherine Beaumont, Frédéric Lecerf, Protais, J., Kevin Prevost, Anne-Christine Lalmanach, Herve Chapuis, Frédérique Pitel, Burlot, T., Nadine Sellier, Fravalo, P., Alain Vignal, Philippe Velge, Unité de Recherches Avicoles (URA), Institut National de la Recherche Agronomique (INRA), Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, and ProdInra, Migration

Subjects

[SDV] Life Sciences [q-bio], CHICKENS, [SDV]Life Sciences [q-bio], [INFO]Computer Science [cs], [INFO] Computer Science [cs], SALMONELLA, RESISTANCE, SALMONELLES