Genomic rearrangements and transcriptional analysis of the spliced leader-associated retrotransposon in RNA interference-deficient Trypanosoma brucei.

The Trypanosoma brucei genome is colonized by the site-specific non-LTR retrotransposon SLACS, or spliced leader-associated conserved sequence, which integrates exclusively into the spliced leader (SL) RNA genes. Although there is evidence that the RNA interference (RNAi) machinery regulates SLACS transcript levels, we do not know whether RNAi deficiency affects the genomic stability of SLACS, nor do we understand the mechanism of SLACS transcription. Here, we report that prolonged culturing of RNAi-deficient T.

Evidence for a capping enzyme with specificity for the trypanosome spliced leader RNA.

Capping of the pre-mRNA 5' end by addition a monomethylated guanosine cap (m(7)G) is an essential and the earliest modification in the biogenesis of mRNA. The reaction is catalyzed by three enzymes: triphosphatase, guanylyltransferase, and (guanine N-7) methyltransferase. Whereas this modification occurs co-transcriptionally in most eukaryotic organisms, trypanosomatid protozoa mRNAs acquire the m(7)G cap by trans-splicing, which entails the transfer of the capped spliced leader (SL) from the SL RNA to the mRNA.

Characterization of the Trypanosoma brucei cap hypermethylase Tgs1.

Many U-snRNAs contain a hypermodified 2,2,7-trimethylguanosine (TMG) cap structure, which is formed by post-transcriptional methylation of an m(7)G cap. At present, little is known about the maturation of U-snRNAs in trypanosomes. The current evidence is consistent with the primary transcript containing an m(7)G moiety, but it is not clear whether the conversion of m(7)G to TMG takes place in the cytoplasm or in the nucleus.

Functional characterization of a Trypanosoma brucei TATA-binding protein-related factor points to a universal regulator of transcription in trypanosomes.

Transcriptional mechanisms remain poorly understood in trypanosomatid protozoa. In particular, there is no knowledge about the function of basal transcription factors, and there is an apparent rarity of promoters for protein-coding genes transcribed by RNA polymerase (Pol) II. Here we describe a Trypanosoma brucei factor related to the TATA-binding protein (TBP).