1. The transcriptional response to the olive fruit fly (Bactrocera oleae) reveals extended differences between tolerant and susceptible olive (Olea europaea L.) varieties
- Author
-
Fiammetta Alagna, Luciana Baldoni, Alessia Vitiello, Rosa Rao, Antonio P. Garonna, Giandomenico Corrado, Loretta Daddiego, Antonio J. Pérez-Pulido, Gaetano Perrotta, Loredana Lopez, Paolo Facella, Filomena Grasso, Mariangela Coppola, Fabrizio Carbone, Grasso, Filomena, Coppola, Mariangela, Carbone, Fabrizio, Baldoni, Luciana, Alagna, Fiammetta, Perrotta, Gaetano, Pérez-Pulido, Antonio J., Garonna, Antonio, Facella, Paolo, Daddiego, Loretta, Lopez, Loredana, Vitiello, Alessia, Rao, Rosa, Corrado, Giandomenico, Lopez, L., Daddiego, L., Facella, P., and Perrotta, G.
- Subjects
0106 biological sciences ,0301 basic medicine ,Life Cycles ,Microarrays ,Olive fruit fly ,lcsh:Medicine ,Gene Expression ,01 natural sciences ,Biochemistry ,Olive Fruit Fly ,susceptibility ,Transcriptome ,Database and Informatics Methods ,Larvae ,Gene Expression Regulation, Plant ,Plant Products ,Cultivar ,Database Searching ,Olea europaea ,lcsh:Science ,Multidisciplinary ,biology ,Tephritidae ,Host-Parasite Interaction ,food and beverages ,Olives ,Agriculture ,Plants ,Bioassays and Physiological Analysis ,Olea ,transcriptional change ,Insect Pests ,Metabolic Networks and Pathways ,Research Article ,Bactrocera oleae ,Plant Disease ,Research and Analysis Methods ,Vegetable Oils ,Host-Parasite Interactions ,Fruits ,03 medical and health sciences ,Pests ,Botany ,DNA-binding proteins ,Genetics ,Bactrocera ,Animals ,Gene Regulation ,Secondary metabolism ,Sequence Similarity Searching ,Plant Diseases ,Biochemistry, Genetics and Molecular Biology (all) ,Animal ,lcsh:R ,fungi ,Organisms ,Metabolic Networks and Pathway ,Biology and Life Sciences ,Proteins ,biology.organism_classification ,Agronomy ,Regulatory Proteins ,030104 developmental biology ,Agricultural and Biological Sciences (all) ,Fruit ,lcsh:Q ,PEST analysis ,010606 plant biology & botany ,Crop Science ,Transcription Factors ,Developmental Biology - Abstract
The olive fruit fly Bactrocera oleae (Diptera: Tephritidae) is the most devastating pest of cultivated olive (Olea europaea L.). Intraspecific variation in plant resistance to B. oleae has been described only at phenotypic level. In this work, we used a transcriptomic approach to study the molecular response to the olive fruit fly in two olive cultivars with contrasting level of susceptibility. Using next-generation pyrosequencing, we first generated a catalogue of more than 80,000 sequences expressed in drupes from approximately 700k reads. The assembled sequences were used to develop a microarray layout with over 60,000 olive-specific probes. The differential gene expression analysis between infested (i.e. with II or III instar larvae) and control drupes indicated a significant intraspecific variation between the more tolerant and susceptible cultivar. Around 2500 genes were differentially regulated in infested drupes of the tolerant variety. The GO annotation of the differentially expressed genes implies that the inducible resistance to the olive fruit fly involves a number of biological functions, cellular processes and metabolic pathways, including those with a known role in defence, oxidative stress responses, cellular structure, hormone signalling, and primary and secondary metabolism. The difference in the induced transcriptional changes between the cultivars suggests a strong genetic role in the olive inducible defence, which can ultimately lead to the discovery of factors associated with a higher level of tolerance to B. oleae. © 2017 Grasso et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
- Published
- 2017