Project description:Comparative gene expression profiling of Anopheles funestus insecticide resistant field strain from an area of a major insecticide treated bednet randomised control trial

Project description:Nine Anopheles gambiae populations were sampled in three areas of Tanzania showing contrasting agriculture activity, urbanization and usage of insecticides for vector control. Insecticide resistance levels were measured in larvae and adults through bioassays with deltamethrin, DDT and bendiocarb. A microarray approach was used for identifying transcription level variations associated to different environments and insecticide resistance. the Ifakara strain originating from central Tanzania and susceptible to all insecticides was used as a reference strain.

Project description:The transcriptional profile of four tissues for the multi insecticide Anopheles gambiae (Tiassale) and lab susceptible Anopheles gambiae strain N'Gousso. The malpighian tubules, abodmen integument (containing the fat body epidermal, neuronal, muscle and oenocyte cells), midgut and remaining structures were dissected and compared two ways: (i) each body part against the corresponding whole organism (ii) resistant against corresponding susceptible body parts.

Project description:Identification of genes associated with bendiocarb resistance. Mosquitoes collected as larvae from Nagongera and Kihihi, Uganda. Bendiocarb-resistant and unexposed female mosquitoes selected using standard WHO tube bioassays. RNA was extracted from pools of five individuals identified as An. gambiae s.s. Insecticide-susceptible mosquitoes from the Kisumu strain were included as controls. RNA hybridized in an interwoven loop design to compare four biological replicates each of resistant, unexposed, and laboratory mosquitoes.

Project description:Salivary glands are the only mosquito tissue invaded by Plasmodium sporozoites being a key stage for the effective parasite transmission and maturation, making knowledge regarding Anopheles sialome highly relevant to understand this process. In this study, we report for the first time a transcriptomic analysis using RNA-seq of An. gambiae infected by P. berghei.

Project description:Toll pathway is a key mediator of antiplasmodial immunity and its mechanism of action is dependent on hemocytes (mosquito white blood cells). Anopheles gambiae were injected with dsRNA for Cactus, an inhibitor of the Toll pathway. Cactus silencing over activates the Toll pathway. The goal of this experiment is to evaluate hemocyte transcriptional changes between control mosquitoes injected with a non-related dsRNA (dsLacZ and dsCactus injected mosquitoes. We also divide hemocytes from control and experimental conditions into 2 groups: bound (hemocytes that attach to glass - granulocyte populations) and unbound (hemocytes that remain in suspension - prohemocytes and oenocytoids). Files from Unbound fractions are labelled: UB and from bound fractions are labelled B. Some of the samples were run twice and have 2 gz files.

Project description:The Anopheles gambiae midgut harbors bacteria that proliferate upon a blood feed. We used microarrays to examine the midgut gene expression response at early stages (3hours) after an artifitial meal containing heat killed bacteria. Anopheles gambiae G3 mosquitoes 5-6 day-old were fed BSA (20% in PBS with fresh 10 mM sodium bicarbonate) with or without heat killed E. coli (equivalent of 2.5 ml of 0.8 OD) . Three pools of 10 mosquito midguts were dissected after 3h and processed for microarray analysis of gene expression.

Project description:Transcription factor Met knockdown by dsRNA injection and compared to dsRNA-GFP injected control. Met was knocked down to determine whether it plays a role in response to traditional public health insecticides in addition to juvenile hormone homologs.

Project description:Transcription factor Maf-S knockdown by dsRNA injection and compared to dsRNA-GFP injected control. Maf-S knockdown was performed to study the affect of xenobiotic stress of the cnc-keap1 pathway.

Project description:Whole genome transcription was quantified in adult female and male Anopheles gambiae atdifferent ages; 0 (0-24 h), 10, 20 and 30 days post-eclosion. The objective of the experiment was to identify genes with significant age-dependent transcription. One-colour gene expression arrays were run in duplicate on both male and female RNA samples at the following ages; 0 (0-24 h), 10, 20 and 30 days post-eclosion.