Medicine
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This repository contains the published and unpublished research of the Faculty of Medicine by the staff members of the faculty
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Item Reconstruction of Metabolic Pathways for the Setaria digitata Whole Genome(Sri Lanka Medical Association, 2020) Rashanthy, N.; Kothalawala, M.S.A.; Mugunamalwaththa, T.S.; Darshika, W.A.S.; Lakmali, G.L.Y.; de Zoysa, K.; Chandrasekharan, N.V.; Gunawardene, Y.I.N.S.; Suravajhala, P.; Dassanayake, R.S.INTRODUCTION AND OBJECTIVES: Setaria digitata is a Wolbachia-free filarial parasite that resides in the abdominal cavity of ungulates. It can cause cerebrospinal nematodiasis (CNS) in unnatural hosts such as sheep, goats, which causes a serious threat to livestock farming. Furthermore, S. digitata can also infect humans causing several conditions showing a gradual adaption to humans. METHODS: Despite, to date, complete a metabolic pathway reconstruction of S. digitata has not been undertaken and therefore, in this study the latter analyses were carried out using BLAST2GO software. RESULTS: Metabolic pathway analysis based on Kyoto Encyclopedia of Genes and Genomes (KEGG) database identified 111 enzymes found in total of 246 contigs that involve in 95 metabolic pathways, in which the most over-represented pathways are Biosynthesis of antibiotics, Phosphatidylinositol signaling system and Purine metabolism. Since S. digitata does not harbor Wolbachia endosymbiont, it was theorized that the S. digitata genome must encodes genes to carryout haem, riboflavin and nucleotides pathways, otherwise encoded by Wolbachia genome, potentially through lateral transfer of Wolbachia to an ancestor of S.digitata. Here, KEGG analysis identified 16 enzyme coding genes involve in nucleotide biosynthesis and one enzyme involve in riboflavin biosynthesis pathway. Although studies have revealed that FAD and glutathione pathways are complete in all nematode genomes, the genes encoding FAD and glutathione pathways were not found in the S. digitata. Moreover, complete nucleotide synthesis pathway and haem synthesis pathway were not found. CONCLUSION: This suggests that S. digitata may have evolved its own sequences to encode those biosynthetic pathways and hence calling for investigations to undertake characterization of genes involved in these pathways.Item Development of siRNA mediated RNA interference and functional analysis of novel parasitic nematode-specific protein of Setaria digitata(Academic Press, 2018) Somarathne, M.B.C.L.; Gunawardene, Y.I.N.S.; Chandrasekharan, N.V.; Dassanayake, R.S.Despite the differences of the host, parasitic nematodes may share commonalities in their parasitizing genes. Setaria digitata novel protein (SDNP) is such an entity which is parasitic nematode-specific and having sequence similarities with those of W. bancrofti, B. malayi, Loa loa and Onchocerca volvulus. Post-transcriptional gene silencing by siRNA mediated RNA interference (RNAi) is a widely used technique in functional genomics. Though the technique has been used in several free-living, plant and animal parasitic nematodes, it has not yet been tried out for the filarial worm S. digitata. In this study, we developed an effective siRNA delivery method by microinjection and utilized the siRNAi tool to knockdown SDNP to study the phenotypic and cellular changes associated with the interference. qPCR analysis revealed, a significant reduction of SDNP transcript levels following siRNA microinjection into S. digitata adult worms. Similarly, immunohistochemical staining indicated a reduction of SDNP protein expression. Furthermore, worms treated with siRNA showed a significant reduction of microfilariae release together with embryonic lethality by arresting an early developmental stage compared to non-treated worms. A distinct motility reduction was also observed in treated worms compared to non-treated counterparts. This is the first report of the amenability of S. digitata to the siRNA induced RNAi. The presence of inter-domain linkers of muscle-specific twitchin kinase and calcium-dependent protein kinase isoform CDPK1 together with what our results revealed suggest that SDNP is most likely a protein involved in muscle movement and growth and development of the nematode. Hence SDNP has the characteristics of a potential drug target.