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ARS Home » Southeast Area » Baton Rouge, Louisiana » Honey Bee Lab » Research » Publications at this Location » Publication #268772

Title: Using Single-nucleotide Polymorphisms and Genetic Mapping to find Candidate Genes that Influence Varroa-Specific Hygiene

Author
item TSURUDA, J - Purdue University
item Harris, Jeffrey
item Bourgeois, Lanie
item Danka, Robert - Bob
item HUNT, G - Purdue University

Submitted to: American Bee Journal
Publication Type: Abstract Only
Publication Acceptance Date: 3/6/2011
Publication Date: 5/15/2011
Citation: Tsuruda, J.M., Harris, J.W., Bourgeois, A.L., Danka, R.G., Hunt, G.J. 2011. Using Single-nucleotide Polymorphisms and Genetic Mapping to find Candidate Genes that Influence Varroa-Specific Hygiene. American Bee Journal. 151(5):511.

Interpretive Summary:

Technical Abstract: Varroa-sensitive hygienic (VSH) behavior is one of two behaviors identified that are most important for controlling the growth of Varroa mite populations in bee hives. A study was conducted to map quantitative trait loci (QTL) that influence VSH so that resistance genes could be identified. Crosses between high- and low-VSH lines resulted in a backcross family. Individual workers were tagged with numbered disks and evaluated for their VSH behavior in a mite-infested observation hive. Bees that uncapped or removed mite-infested pupae were identified. Probes for 1,536 single-nucleotide polymorphisms (SNPs) within genes were used to analyze the genomic DNA of worker bees in this backcross family. The genotypes for 1,348 informative SNPs were used to construct a high-resolution genetic map using JoinMap software and to compare genotypes of individuals that performed VSH behavior to those that did not perform the behavior. Interval mapping using MapQTL software identified one major QTL on chromosome 9 (LOD score=3.17) and a suggestive QTL on chromosome 3(LOD=2.16). The QTL region on chromosome 9 contains relatively few genes and the center of this region contains a dopamine receptor. This type of dopamine receptor has been previously shown to be required for olfactory and aversive learning, which are necessary for identifying mites within brood cells.