Abstract
BackgroundFemale reproductive potential plays a significant role in the survival and stability of species, and sexual maturation and mating processes are crucial. However, our knowledge of the reproductive genes involved in sexual maturation and mating has been largely limited to model organisms. The oriental fruit fly Bactrocera dorsalis is a highly invasive agricultural pest, known to cause major economic losses; thus, it is of great value to understand the transcriptional changes involved in sexual maturation and mating processes as well as the related genes. Here, we used a high-throughput sequencing method to identify multiple genes potentially involved in sexual maturation and mating in female B. dorsalis.ResultsWe sequenced 39,999 unique genes with an average length of 883 bp. In total, 3264 differentially expressed genes (DEGs) were detected between mature virgin and immature Bactrocera dorsalis libraries, whereas only 83 DEGs were identified between flies that had mated or were mature virgins. These DEGs were functionally annotated using the GO and KEGG pathway annotation tools. Results showed that the main GO terms associated with the DEGs from the mature virgin vs. immature groups were primarily assigned to the metabolic and developmental processes, which we focused on, whereas those from the mated vs. mature virgin group largely belonged to the response to stimulus and immune system processes. Additionally, we identified multiple DEGs during sexual maturation that are involved in reproduction, and expression pattern analysis revealed that the majority DEGs detected were highly enriched in those linked to the ovaries or fat bodies. Several mating responsive genes differentially expressed after mating were also identified, and all antimicrobial peptides detected were highly enriched in fat body and significantly up-regulated approximately 2- to 10-fold at 24 h after mating.ConclusionThis study supplied female reproductive genes involved in sexual maturation and the post-mating response in B. dorsalis, based on RNA-seq. Our data will facilitate molecular research related to reproduction and provide abundant target genes for effective control of this agricultural pest.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-2532-6) contains supplementary material, which is available to authorized users.
Highlights
Female reproductive potential plays a significant role in the survival and stability of species, and sexual maturation and mating processes are crucial
Gene ontology and clusters of orthologous group classification Gene ontology (GO) analysis was performed for functional categorization of unigenes (Additional file 5: Figure S2)
Genes involved in oogenesis and ovary maturation From differentially expressed genes (DEGs) analysis of the samples from immature vs. mature virgin individuals, we identified seven genes that reportedly participate in oogenesis and ovary maturation in insects (Additional file 8: Table S4)
Summary
Female reproductive potential plays a significant role in the survival and stability of species, and sexual maturation and mating processes are crucial. The oriental fruit fly Bactrocera dorsalis is a highly invasive agricultural pest, known to cause major economic losses; it is of great value to understand the transcriptional changes involved in sexual maturation and mating processes as well as the related genes. We used a high-throughput sequencing method to identify multiple genes potentially involved in sexual maturation and mating in female B. dorsalis. Especially those belonging to the genus Bactrocera, are globally important due to their destructive impact on agriculture. Their high reproductive ability is an important factor that leads to enhanced survival rates and potential to multiply. As an invasive agricultural pest with a wide host range and high fecundity, it is essential to investigate the reproductive biology of B. dorsalis females at the molecular level in order to formulate simple and effective strategies for agricultural pest control
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