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1.
PLoS One ; 7(11): e47269, 2012.
Article in English | MEDLINE | ID: mdl-23133594

ABSTRACT

Populations of honey bees in North America have been experiencing high annual colony mortality for 15-20 years. Many apicultural researchers believe that introduced parasites called Varroa mites (V. destructor) are the most important factor in colony deaths. One important resistance mechanism that limits mite population growth in colonies is the ability of some lines of honey bees to groom mites from their bodies. To search for genes influencing this trait, we used an Illumina Bead Station genotyping array to determine the genotypes of several hundred worker bees at over a thousand single-nucleotide polymorphisms in a family that was apparently segregating for alleles influencing this behavior. Linkage analyses provided a genetic map with 1,313 markers anchored to genome sequence. Genotypes were analyzed for association with grooming behavior, measured as the time that individual bees took to initiate grooming after mites were placed on their thoraces. Quantitative-trait-locus interval mapping identified a single chromosomal region that was significant at the chromosome-wide level (p<0.05) on chromosome 5 with a LOD score of 2.72. The 95% confidence interval for quantitative trait locus location contained only 27 genes (honey bee official gene annotation set 2) including Atlastin, Ataxin and Neurexin-1 (AmNrx1), which have potential neurodevelopmental and behavioral effects. Atlastin and Ataxin homologs are associated with neurological diseases in humans. AmNrx1 codes for a presynaptic protein with many alternatively spliced isoforms. Neurexin-1 influences the growth, maintenance and maturation of synapses in the brain, as well as the type of receptors most prominent within synapses. Neurexin-1 has also been associated with autism spectrum disorder and schizophrenia in humans, and self-grooming behavior in mice.


Subject(s)
Bees/genetics , Bees/physiology , Chromosome Mapping/methods , Mites/genetics , Alleles , Alternative Splicing , Animals , Bees/parasitology , Computational Biology/methods , Expressed Sequence Tags , Female , Genetic Linkage , Genotype , Lod Score , Models, Genetic , Neural Cell Adhesion Molecules/genetics , Neural Cell Adhesion Molecules/metabolism , Polymorphism, Single Nucleotide , Protein Isoforms , Quantitative Trait Loci
2.
Behav Genet ; 42(4): 663-74, 2012 Jul.
Article in English | MEDLINE | ID: mdl-22327626

ABSTRACT

In order to identify genes that are influencing defensive behaviors, we have taken a new approach by dissecting colony-level defensive behavior into individual behavioral measurements using two families containing backcross workers from matings involving European and Africanized bees. We removed the social context from stinging behavior by using a laboratory assay to measure the stinging response of individual bees. A mild shock was given to bees using a constant-current stimulator. The time it took bees to sting in response to this stimulus was recorded. In addition, bees that were seen performing guard behaviors at the hive entrance were collected. We performed QTL mapping in two backcross families with SNP probes within genes and identified two new QTL regions for stinging behavior and another QTL region for guarding behavior. We also identified several candidate genes involved in neural signaling, neural development and muscle development that may be influencing stinging and guarding behaviors. The lack of overlap between these regions and previous defensive behavior QTL underscores the complexity of this behavior and increases our understanding of its genetic architecture.


Subject(s)
Bees/genetics , Behavior, Animal , Insect Bites and Stings/genetics , Quantitative Trait Loci , Reaction Time/genetics , Animals , Chromosome Mapping , Genetic Association Studies , Genetic Linkage , Lod Score , Polymorphism, Single Nucleotide , Social Behavior
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