Journal
BMC GENOMICS
Volume 14, Issue -, Pages -Publisher
BMC
DOI: 10.1186/1471-2164-14-749
Keywords
Anopheles; Mosquito; Antenna; Transcriptome; Olfaction; Malaria; Host-seeking; Odorant receptor; Molecular evolution; RNAseq
Funding
- National Science Foundation [DEB-0844968]
- Innovation and Discovery in Engineering And Science (IDEAS) program of Vanderbilt University
- National Institutes of Health (NIAID) [AI056402]
- NIDCD through an NRSA [F31 DC012991]
- Direct For Biological Sciences
- Division Of Environmental Biology [0844968] Funding Source: National Science Foundation
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Background: Two sibling members of the Anopheles gambiae species complex display notable differences in female blood meal preferences. An. gambiae s.s. has a well-documented preference for feeding upon human hosts, whereas An. quadriannulatus feeds on vertebrate/mammalian hosts, with only opportunistic feeding upon humans. Because mosquito host-seeking behaviors are largely driven by the sensory modality of olfaction, we hypothesized that hallmarks of these divergent host seeking phenotypes will be in evidence within the transcriptome profiles of the antennae, the mosquito's principal chemosensory appendage. Results: To test this hypothesis, we have sequenced antennal mRNA of non-bloodfed females from each species and observed a number of distinct quantitative and qualitative differences in their chemosensory gene repertoires. In both species, these gene families show higher rates of sequence polymorphisms than the overall rates in their respective transcriptomes, with potentially important divergences between the two species. Moreover, quantitative differences in odorant receptor transcript abundances have been used to model potential distinctions in volatile odor receptivity between the two sibling species of anophelines. Conclusion: This analysis suggests that the anthropophagic behavior of An. gambiae s.s. reflects the differential distribution of olfactory receptors in the antenna, likely resulting from a co-option and refinement of molecular components common to both species. This study improves our understanding of the molecular evolution of chemoreceptors in closely related anophelines and suggests possible mechanisms that underlie the behavioral distinctions in host seeking that, in part, account for the differential vectorial capacity of these mosquitoes.
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