Article ID Journal Published Year Pages File Type
5546327 Ticks and Tick-borne Diseases 2017 16 Pages PDF
Abstract

•The differentially expressed genes after blood feeding are identified.•Genes involved in blood digestion, metabolism and stress responses are discussed.•This mialome helps understanding the molecular physiology of digestion in argasids.•The midgut transcriptome of an argasid tick is assembled for the first time.

The argasid tick Ornithodoros moubata is the main vector of the African swine fever and the human relapsing fever in Africa. As part of the host-parasite-pathogen interface, the tick midgut expresses key proteins for tick survival and tick-borne pathogen transmission. Accordingly, midgut proteins are potential targets for the development of new drugs and vaccines aimed at tick control, and obtaining proteomic and transcriptomic data from the O. moubata midgut would facilitate the identification of such target candidates. With this aim, we have assembled and characterized the midgut transcriptome of O. moubata females before and 48 h after a blood meal, and identified the genes that are differentially expressed in the midgut after feeding. Overall, 23,863 transcripts were obtained, and of them, 9,164 were identified and annotated. The most represented molecular functions were catalytic and binding activities, and the most represented biological processes were metabolic, cellular and single-organism processes. KEGG analysis of the annotated sequences assigned up to 3,053 of them to 130 active pathways, among which, the top 30 pathways were mostly metabolic routes. Differential expression analysis between unfed and fed ticks detected 8,026 Differentially Expressed Genes (DEGs), 4,093 up-regulated and 3,933 down-regulated, respectively. The biological significance of these DEGs was further investigated using the KEEG, Pfam and GO databases. The functional groups of the genes/proteins predicted to be involved in the processes of blood digestion, nutrient transport and metabolism, and in responses related to defence and oxidative stress are discussed in more detail. This work reports the first midgut transcriptome analysis of an argasid tick species, and provides a wealth of novel molecular information about the argasid machinery involved in blood feeding and digestion. This information represents a starting point for the development of alternative strategies for tick control.

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