Identification of a Polymorphic Mucin-like Gene Expressed in the Midgut of the Mosquito, Aedes aegypti, Using an Integrated Bulked Segregant and Differential Display Analysis

Identification of a Polymorphic Mucin-like Gene Expressed in the Midgut of the Mosquito, Aedes aegypti, Using an Integrated Bulked Segregant and Differential Display Analysis

Isabelle Morlais^a and David W. Severson^a
^a Center for Tropical Disease Research and Training, Department of Biological Sciences, University of Notre Dame, Notre Dame, Indiana 46556

Corresponding author: David W. Severson, Department of Biological Sciences, University of Notre Dame, Notre Dame, IN 46556., david.w.severson.1{at}nd.edu (E-mail)

Communicating editor: Z-B. ZENG

The identification of putative differentially expressed geneswithin genome regions containing QTL determining susceptibilityof the mosquito, Aedes aegypti, to the malarial parasite, Plasmodiumgallinaceum, was investigated using an integrated, targetedapproach based on bulked segregant and differential displayanalysis. A mosquito F₂ population was obtained from pairwisematings between the parasite-susceptible RED strain and theresistant MOYO-R substrain. DNA from female carcasses was usedto genotype individuals at RFLP markers of known chromosomalposition around the major QTL (pgs 1). Midguts, dissected 48hr after an infected blood meal, were used to prepare two RNAbulks, each representing one of the parental genotypes at theQTL interval. The RNA bulks were compared by differential displayPCR. A mucin-like protein gene (AeIMUC1) was isolated and characterized.The gene maps within the pgs 1 QTL interval and is expressedin the adult female midgut. AeIMUC1 RNA abundance decreasedwith time after blood meal ingestion. No differential expressionwas observed between the two mosquito strains but three differentalleles with inter- and intrastrain allelic polymorphisms includingindels and SNPs were characterized. The AeIMUC1 gene chromosomelocation and allelic polymorphisms raise the possibility thatthe protein might be involved in parasite-mosquito interactions.

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