The molecular biology of the olive fly comes of age

The molecular biology of the olive fly comes of age

Olive cultivation blends with the history of the Mediterranean countries since ancient times. Even today, activities around the olive tree constitute major engagements of several people in the countryside of both sides of the Mediterranean basin. The olive fly is, beyond doubt, the most destructive...

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Published in:BMC genetics Vol. 15 Suppl 2; no. 9; p. S8
Main Authors: Sagri, Efthimia, Reczko, Martin, Tsoumani, Konstantina T, Gregoriou, Maria-Eleni, Harokopos, Vaggelis, Mavridou, Anna-Maria, Tastsoglou, Spyros, Athanasiadis, Konstantinos, Ragoussis, Jiannis, Mathiopoulos, Kostas D
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 01-12-2014
BioMed Central
Subjects:
Analysis
Animals
Bioinformatics
Biotechnology
Ceratitis capitata
Colleges & universities
Computational Biology
Diptera - embryology
Diptera - genetics
Female
Females
Gene Expression Profiling
Gene Expression Regulation
Gene Expression Regulation, Developmental
Genetic aspects
Genetics
Genomes
High-Throughput Nucleotide Sequencing
Insect pests
Insecticides
Laboratories
Male
Mediterranean fruit-fly
Molecular biology
Molecular Sequence Annotation
Peer review
Physiological aspects
Reproducibility of Results
Sex Factors
Transcriptome
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Summary:Olive cultivation blends with the history of the Mediterranean countries since ancient times. Even today, activities around the olive tree constitute major engagements of several people in the countryside of both sides of the Mediterranean basin. The olive fly is, beyond doubt, the most destructive pest of cultivated olives. The female fly leaves its eggs in the olive fruit. Upon emergence, the larvae feed on the olive sap, thus destroying the fruit. If untreated, practically all olives get infected. The use of chemical insecticides constitutes the principal olive fly control approach. The Sterile Insect Technique (SIT), an environmentally friendly alternative control method, had been tried in pilot field applications in the 1970's, albeit with no practical success. This was mainly attributed to the low, non-antagonistic quality of the mixed-sex released insects. Many years of experience from successful SIT applications in related species, primarily the Mediterranean fruit fly, Ceratitis capitata, demonstrated that efficient SIT protocols require the availability of fundamental genetic and molecular information. Among the primary systems whose understanding can contribute towards novel SIT approaches (or its recently developed alternative RIDL: Release of Insects carrying a Dominant Lethal) is the reproductive, since the ability to manipulate the reproductive system would directly affect the insect's fertility. In addition, the analysis of early embryonic promoters and apoptotic genes would provide tools that confer dominant early-embryonic lethality during mass-rearing. Here we report the identification of several genes involved in these systems through whole transcriptome analysis of female accessory glands (FAGs) and spermathecae, as well as male testes. Indeed, analysis of differentially expressed genes in these tissues revealed higher metabolic activity in testes than in FAGs/spermathecae. Furthermore, at least five olfactory-related genes were shown to be differentially expressed in the female and male reproductive systems analyzed. Finally, the expression profile of the embryonic serendipity-α locus and the pre-apoptotic head involution defective gene were analyzed during embryonic developmental stages. Several years of molecular studies on the olive fly can now be combined with new information from whole transcriptome analyses and lead to a deep understanding of the biology of this notorious insect pest. This is a prerequisite for the development of novel embryonic lethality female sexing strains for successful SIT efforts which, combined with improved mass-reared conditions, give new hope for efficient SIT applications for the olive fly.
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ISSN:1471-2156
1471-2156
DOI:10.1186/1471-2156-15-S2-S8