3. Electronic Theses and Dissertations (ETDs) - All submissions
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Item Insecticide resistance and Bionomics in laboratory reared and field caught Anopheles funestus Giles (Diptera: Culicidae)(2013-01-23) Spillings, Belinda LeaMalaria is transmitted by the mature, blood feeding portion of mosquito vector populations. Malaria vector control programs based on indoor residual spraying (IRS) of insecticides are designed to target resting adult Anopheles mosquitoes before or after they have blood fed. When a female mosquito acquires a blood meal, she could also ingest harmful xenobiotics that are present in the blood. During the resting period after feeding, many processes are initiated in order to assist in the digestion and assimilation of the blood. Ultimately, this enables the mosquito to absorb those amino acids needed for the biosynthesis of yolk proteins, which are essential for subsequent egg maturation. Since the regulation of xenobiotic (including insecticides) detoxification enzyme systems is likely to be altered in response to the ingestion of blood, this study aimed to investigate the effect of a blood meal on insecticide tolerance in insecticide resistant and susceptible southern African strains of the major malaria vector Anopheles funestus. Through the use of CDC bottle bioassays it was demonstrated that blood fed An. funestus carrying a pyrethroid resistant phenotype are even more tolerant of pyrethroid intoxication than their unfed counterparts. Using another major malaria vector, An. gambiae, microarray analysis revealed that a general increase in delta class glutathione-s-transferase (GST) expression occured in response to a blood meal. One gene, GSTD3, was over-expressed in both blood fed An. gambiae and An. funestus. Although this gene could not be validated with real time quantitative PCR, it serves as a viable target for future investigations. Since the pyrethroid resistant phenotype of southern African An. funestus has been linked to the over-expression of the duplicate copy gene CYP6P9, the expression levels of both copies of this gene were investigated. CYP6P9 and its copy, CYP6P13, showed a small but significant increase in expression in response to a blood meal. The increased expression of these major effect genes in response to blood feeding may be responsible for the increase in insecticide tolerance seen in the bottle bioassays. In an effort to repeat these experiments on wild caught An. funestus, field material was collected from Karonga in northern Malawi. Specimens were morphologically identified as members of the An. funestus group. However, attempts to molecularly identify them to species level failed. Through the use of ITS2 and D3 sequence analysis, cytogenetics and cross mating studies it was possible to conclude that these wild caught specimens were a new species. They have been provisionally named An. funestus-like.Item Development of mucobacteriophage L5 as a marker for mutation induction in mycobacteria(2006-11-01T08:46:51Z) Spillings, Belinda LeaDue to the paucity of sensitive mutation markers available for studying mycobacterial species it was decided to explore the suitability of mycobacteriophage L5 as an analogous mutation detection system to phage Lambda in E. coli. The system relies on the detection of an increased production of clear plaque mutants (CPM) arising from turbid plaques, in response to DNA damage. A number of L5 phage experimental tools were developed and optimized, including a lysogen-based CPM confirmation assay. The mutant induction system was applied to wild type M. smegmatis mc2155 and its recA mutant, dinP mutant as well as an M. smegmatis(L5) lysogen. The lysogen system proved to be insensitive with respect to mutant induction since elevated CPM frequencies could not be detected. Interestingly, the wild type M. smegmatis mc2155 system demonstrated slightly elevated CPM frequencies in response to transfection of untreated L5 on UV irradiated host cells. This result suggests that a host SOS mutagenic system is able to act on normal, undamaged DNA bases. The involvement of the SOS response in untargeted mutagenesis was confirmed by the abrogation of increased CPM frequency, in an M. smegmatis recA mutant. This data supports suggestions that RecA is responsible for the control of the SOS response. The M. smegmatis dinP mutant system showed a decrease in CPM frequency which supports evidence that this gene does have mutator polymerase activity, as is in seen E. coli dinP homologues.