Project description:Purpose: The is a major paucity of knowledge regarding the biology of Trypanosoma congolense, a protozoan parasite primarily responsible for Animal African Trypanosomiasis. In contrast, the closely related species T. brucei, is far better understood. To characterise core metabolism in T. congolense, comparative RNAseq analysis was undertaken to assess similarities and differences in transcript levels of genes associated with metabolism Methods: Samples from both in vitro culture and ex vivo (isolated from murine infections) bloodstream-form T. brucei and T. congolense were RNA-sequenced. Data was analyzed using a pipeline that allows for inter-species comparison Results: T. congolense exhibits increased transcript abundance in genes associated with the glycosomal succinate shunt, as well as mitochondrial metabolism, in particular the catabolism of pyruvate to acetate, compared to T. brucei. These differences occur both in vitro and ex vivo. Furthermore there are differences in nucleotide metabolism, and transcript levels of genes involved in fatty acid synthesis are reduced in T. congolense compared to T. brucei. Conclusions: Comparative RNAseq between two closely related species provided a detailed overview of similarities and differences in core metabolism. This carries significant implications for adaptation to in vitro culture, and drug efficacy, mode of action and mode of resistance.
Project description:Trypanosoma congolense IL3000 parasites were grown in adult MF1 mice with parasites harvested on day 5 post infection ('ascend') or on day 6/7 post infection ('peak').
Project description:Transcriptome sequencng of Trypanosoma congolense for future protein-protein interaction studiesThis data is part of a pre-publication release. For information on the proper use of pre-publication data shared by the Wellcome Trust Sanger Institute (including details of any publication moratoria), please see http://www.sanger.ac.uk/datasharing/
Project description:Purpose: Evaluation of differential expression using Illumina HiSeq 2500 analysis of RNA of pure cultures of H. congolense grown in biofilms on various surfaces to assess the impact of surface type on transcriptome.
