Genome-wide association studies of immune, disease and production traits in indigenous chicken ecotypes

The majority of chickens in sub-Saharan Africa are indigenous ecotypes, well adapted to the local environment and raised in scavenging production systems. Although they are generally resilient to disease challenge, routine vaccination and biosecurity measures are rarely applied and infectious diseas...

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Bibliographic Details
Published in:Genetics selection evolution (Paris) 2016-09, Vol.48 (1), p.74-74, Article 74
Main Authors: Psifidi, Androniki, Banos, Georgios, Matika, Oswald, Desta, Takele T, Bettridge, Judy, Hume, David A, Dessie, Tadelle, Christley, Rob, Wigley, Paul, Hanotte, Olivier, Kaiser, Pete
Format: Article
Language:English
Subjects:
Adaptation
Analysis
Animals
Antibodies
antibody formation
Antibody response
Bacterial diseases
Biosecurity
Birds
body condition
Body weight
Cestoda
Chicken breeds
Chickens
Cholera
Chromosome 18
Chromosomes
Communicable diseases
Data recording
Developing countries
Disease resistance
Ecotypes
Eggs
Eimeria
Ethiopia
Farms
Females
Fowl cholera
Fowl typhoid
Gene clusters
genetic correlation
Genetic improvement
Genetic variability
genetic variation
Genome-wide association studies
genome-wide association study
Genomes
Genomics
Health aspects
heritability
Immunological diseases
Infections
Infectious bursal disease
Infectious diseases
LDCs
Life Sciences
loci
Marek disease
Marek's disease
mortality
multigene family
Nucleotides
Parameter estimation
Parasites
Parasitism
pathogens
Positive selection
Poultry
Principal components analysis
production technology
Productivity
Public health
Quality control
Risk factors
Salmonella
Scavenging
selection methods
Selective breeding
Serology
Single nucleotide polymorphisms
Single-nucleotide polymorphism
Sustainability
Towns
Typhoid
Vaccination
variance
Variance analysis
villages
Viral antibodies
Waterborne diseases
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Summary:The majority of chickens in sub-Saharan Africa are indigenous ecotypes, well adapted to the local environment and raised in scavenging production systems. Although they are generally resilient to disease challenge, routine vaccination and biosecurity measures are rarely applied and infectious diseases remain a major cause of mortality and reduced productivity. Management and genetic improvement programmes are hampered by lack of routine data recording. Selective breeding based on genomic technologies may provide the means to enhance sustainability. In this study, we investigated the genetic architecture of antibody response to four major infectious diseases [infectious bursal disease (IBDV), Marek's disease (MDV), fowl typhoid (SG), fowl cholera (PM)] and resistance to Eimeria and cestode parasitism, along with two production traits [body weight and body condition score (BCS)] in two distinct indigenous Ethiopian chicken ecotypes. We conducted variance component analyses, genome-wide association studies, and pathway and selective sweep analyses. The large majority of birds was found to have antibody titres for all pathogens and were infected with both parasites, suggesting almost universal exposure. We derived significant moderate to high heritabilities for IBDV, MDV and PM antibody titres, cestodes infestation, body weight and BCS. We identified single nucleotide polymorphisms (SNPs) with genome-wide significance for each trait. Based on these associations, we identified for each trait, pathways, networks and functional gene clusters that include plausible candidate genes. Selective sweep analyses revealed a locus on chromosome 18 associated with viral antibody titres and resistance to Eimeria parasitism that is within a positive selection signal. We found no significant genetic correlations between production, immune and disease traits, implying that selection for altered antibody response and/or disease resistance will not affect production. We confirmed the presence of genetic variability and identified SNPs significantly associated with immune, disease and production traits in indigenous village chickens. Results underpin the feasibility of concomitant genetic improvement for enhanced antibody response, resistance to parasitism and productivity within and across indigenous chicken ecotypes.
ISSN:1297-9686
0999-193X
1297-9686
DOI:10.1186/s12711-016-0252-7