Project description:Sequencing of progeny from a Trypanosome brucei genetic crosses between T. brucei 247 and T. brucei 927

Project description:Sequencing of progeny from a Trypanosome brucei genetic crosses between T. brucei 927 and T. brucei 927

Project description:Trypanosoma brucei gambiense is the causative agent of the fatal human disease African sleeping sickness. Using Digital Gene Expression we have compared the transcriptome of a group 1 T.b.gambiense (Eliane) and a T.b.brucei (STIB 247).

Project description:Trypanosoma brucei gambiense is the causative agent of the fatal human disease African sleeping sickness. Here we have compared the transcriptome of two different life cycle stages, the potentially human-infective bloodstream form and the non-human-infective procyclic stage, using digital gene expression (DGE) analysis. Digital gene expression analysis was performed on RNA from 3 biological replicates of bloodstream cultured T.b. gambiense strain STIB 386 and compared to that from 3 biological replicates of procyclic cultured T.b. gambiense strain STIB 386.

Project description:Trypanosoma brucei gambiense is the causative agent of the fatal human disease African sleeping sickness. Using Digital Gene Expression we have compared the transcriptome of two T.b.brucei (STIB 247)xT.b.gambiense (STIB386) hybrids.

Project description:Different strains of T. brucei induce different degrees of pathology in infected animals, and TREU927-infected mice display greater splenomegaly and anaemia than 247-infected mice. The analysis of differential host gene expression in infected spleens has allowed the identification of which pathways or processes are crucial in determining the progression of disease, for example IL10, LXR/RXR activation and alternative macrophage activation. We used microarray analysis to examine host gene expression between uninfected and infected mice, and between mice infected with the two trypanosome strains. Mouse spleens were dissected from infected or uninfected mice 10 days post infection, when the differences in pathology criteria (hepatomegaly, red blood cell numbers, reticulocyte percentage, IL10, IFNg and Il12 levels, and splenomegaly) were the greatest. This allowed a three-way comparison, uninfected vs 247-infected, uninfected vs 927-infected, and 247-infected vs 927-infected, allowing us to analyse genes that are differentially expressed between infected and uninfected spleens, but also crucially allows the differentiation between host gene expression with pathogenic (927) and less pathogenic (247) trypanosome strains.

Project description:Different strains of T. brucei induce different degrees of pathology in infected animals, and TREU927-infected mice display greater splenomegaly and anaemia than 247-infected mice. The analysis of differential host gene expression in infected spleens has allowed the identification of which pathways or processes are crucial in determining the progression of disease, for example IL10, LXR/RXR activation and alternative macrophage activation. We used microarray analysis to examine host gene expression between uninfected and infected mice, and between mice infected with the two trypanosome strains.

Project description:Trypanosoma brucei gambiense Genome sequencing

Project description:Trypanosoma brucei gambiense is the causative agent of the fatal human disease African sleeping sickness. Here we have compared the transcriptome of two different life cycle stages, the potentially human-infective bloodstream form and the non-human-infective procyclic stage, using digital gene expression (DGE) analysis.

Project description:Trypanosoma brucei gambiense is the causative agent of the fatal human disease African sleeping sickness. Using Digital Gene Expression we have compared the transcriptome of two isogenic T.b.gambiense lines that are either sensitive or resistant to human serum.