Variation and Heritability in Immune Gene Expression by Diseased Honeybees

doi:10.1093/jhered/esm008

Journal of Heredity Advance Access originally published online on April 2, 2007
Journal of Heredity 2007 98(3):195-201; doi:10.1093/jhered/esm008

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Variation and Heritability in Immune Gene Expression by Diseased Honeybees

Laura I. Decanini, Anita M. Collins, and Jay D. Evans

United States Dept. Agriculture - Agricultural Research Service Bee Research Laboratory, BARC-East Building 476, Beltsville, MD 20705

Address correspondence to Jay D. Evans at the address above, or e-mail: jay.evans{at}ars.usda.gov.

Social insects are frequent targets for pathogens and have consequentlyevolved diverse ways to minimize disease impacts, one of whichis the innate immune response. Here, a 4-generation mating schemewas carried out to assess heritability and variation in a honeybee(Apis mellifera) immune trait, the production of the key antimicrobialpeptide abaecin. Larval offspring from controlled crosses (n= 576 offspring from 36 singly inseminated queens) as well asoffspring of field colonies (896 individuals in 53 colonies)were challenged individually with a widespread bee pathogen,the gram-positive bacterium Paenibacillus larvae. After bacterialchallenge, transcript levels for the gene encoding abaecin werequantified and then compared using known pedigrees and colonyenvironments. Considerable variation among highly related siblings(r = 0.75) indicates that subtle allelic differences in immunepathway genes can have large effects on transcriptional profiles.Abaecin levels were moderately heritable (h² = $~$ 0.3–0.4),reflecting high amounts of standing genetic variation, and suggestingthat this and other immune traits are amenable to selectiveprograms aimed at improving honeybee health. The results helpefforts to determine the relative effectiveness of social versusindividual defenses by social insects toward their pathogens.

Corresponding Editor: L. Lacey Knowles

Received January 12, 2006
Accepted January 31, 2007

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