Physiological and molecular responses in adult and larvae anopheles gambiae s.s. to murraya koenigii phytochemicals
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Date
2014-11-28
Authors
Mang'era, Clarence Maikuri
Journal Title
Journal ISSN
Volume Title
Publisher
Kenyatta University
Abstract
Continuous application of synthetic insecticides causes development of resistance in
vector species, biological magnification of toxic substances through the food chain and
adverse effects on environmental quality and non-target organisms including human
health. Naturally occurring plant compounds and their derivatives are, therefore, of
increasing interest for the development of new compounds against the malaria vector. In
this study, adulticidal and larvicidal activity of essential oil and crude extracts isolated
from the leaves of Murraya koenigii against mosquito vectors will be investigated.
Essential oil will be isolated from the leaves of M koenigii using hydro-distillation
method. Different compounds will be identified by gas chromatography-mass
spectrometry analysis. Larvicidal activity of crude chloroform, dichloromethane and
methanol extracts of the leaves will be tested against the early fourth instar larvae of
Anopheles gambiae s.s. and larval mortality observed after 24 h of exposure relative to
the positive control Temephos, an effective emulsifiable concentrate larvicide.
Susceptibility tests on adult mosquitos will be carried out using WHO insecticide
susceptibility standard procedures. The fumigant toxicity assays will be repeated with
commercially available constituents of the essential oils and blends of these at their
natural proportions in the oils and in amounts present in the minimum 100% lethal dose
of the oils. Each component will then be subtracted from the blend in turn to determine
its relative contribution to the overall toxicity of the natural oil. RNA will be extracted
from mosquito stages exhibiting unique response to the plant compounds, allowing
detection of genes that might show differential expression in a constitutive and/or
inducible way. The extracted RNA will be treated with DNase and the RNA quantified.
Three replicate experiments will be performed for each observation. The cDNA libraries
will be developed from the extracted RNA and sequenced on illumina platform using
established protocols. The libraries will be made from three independent collections from
each observation, and will be barcorded for sequencing. Resultant transcriptome
sequences will be subjected to quality control checks using FastQC software following
which the reads will be mapped to their respective reference genomes and splice
junctions between exons identified using combinations of TopHat and Bowtie software.
Differential expression and regulation among and between samples from different species
will be determined using cufflinks software. Specific methods adopted will be determined
by the inherent nature of the data, following standard biometric procedures (e.g normality
test where appropriate), and software. Our approach employs the repellent, toxic or
otherwise bioactive effects of major components of essential oils through subtraction
assays that will provide an additional insight into the relative contribution of these
components and potentially explore new targets in the malaria vector that will spur
research into novel synthetic formulations.