Project description:T. brucei PF cells were treated with several chemical reagents and anti-trypanosomatid drugs. The effect of each chemical perturbation on the transcriptome of T. brucei was examined by transcript profiling of treated vs. control cells. The results indicated widespread changes, suggesting that the transcriptome of T. brucei is highly responsive to environmental factors that perturb its metabolic and biological pathways.

Project description:T. brucei PF cells were treated with several chemical reagents and anti-trypanosomatid drugs. The effect of each chemical perturbation on the transcriptome of T. brucei was examined by transcript profiling of treated vs. control cells. The results indicated widespread changes, suggesting that the transcriptome of T. brucei is highly responsive to environmental factors that perturb its metabolic and biological pathways. 11 chemical perturbations, each co-hybridized with a common reference RNA from control non-treated cells. One array per treatment.

Project description:Ribosomes, the protein factories of living cells, translate genetic information carried by messenger RNAs into proteins, and are thus involved in virtually all aspects of cellular development and maintenance. The few available structures of the eukaryotic ribosome reveal that it is more complex than its prokaryotic counterpart, owing mainly to the presence of eukaryote-specific ribosomal proteins and additional ribosomal RNA insertions, called expansion segments. The structures also differ among species, partly in the size and arrangement of these expansion segments. Such differences are extreme in kinetoplastids, unicellular eukaryotic parasites often infectious to humans. Here we present a high-resolution cryo-electron microscopy structure of the ribosome of Trypanosoma brucei, the parasite that is transmitted by the tsetse fly and that causes African sleeping sickness. The atomic model reveals the unique features of this ribosome, characterized mainly by the presence of unusually large expansion segments and ribosomal-protein extensions leading to the formation of four additional inter-subunit bridges. We also find additional rRNA insertions, including one large rRNA domain that is not found in other eukaryotes. Furthermore, the structure reveals the five cleavage sites of the kinetoplastid large ribosomal subunit (LSU) rRNA chain, which is known to be cleaved uniquely into six pieces, and suggests that the cleavage is important for the maintenance of the T. brucei ribosome in the observed structure. We discuss several possible implications of the large rRNA expansion segments for the translation-regulation process. The structure could serve as a basis for future experiments aimed at understanding the functional importance of these kinetoplastid-specific ribosomal features in protein-translation regulation, an essential step towards finding effective and safe kinetoplastid-specific drugs.

Project description:Scientist in developing countries maintain trypanosomes in laboratory animals for in vivo experiments. We generated data on the adaptation of Trypanosoma brucei (NITR201 strain) in balb/c mice (forty-five, 18-23 g), wistar rats (fifteen, 180-220 g) and New Zealand white and chinchilla rabbits (fifteen, 2.8-3.0 kg) in a controlled experimental system. The weight, haematological parameters, course of parasitaemia, temperature, mean survival time and survival proportions of laboratory animals in groups A-E were collected and analysed for differences in response to the same challenge of quantity, strain and species of T. brucei. Trypanosome pleomorphism of long, intermediate to short-stumpy forms were among the dataset counts for parasitaemia. Statistical data after analysis were summarised in the supplementary file to show the differences and corresponding reaction of multiple passages.

Project description:The canonical poly (A) polymerase PAP1 polyadenylates non-coding RNAs and is essential for snoRNA biogenesis in Trypanosoma brucei

Project description:Analysis of AnTat1.1 mosaic VSGs in Trypanosoma brucei brucei

Project description:Trypanosoma brucei brucei Raw gRNA sequence reads

Project description:Trypanosoma brucei brucei VSG-seq

Project description:Trypanosoma brucei brucei Raw sequence reads

Project description:Transcriptome analysis of Cymelarsan resistant and Cymelarsan sensitive strains of Trypanosoma brucei.