Inactivation of splicing factors in HeLa cells subjected to heat shock.

The nuclear extracts from HeLa cells subjected to heat shock at 43 or 46 degrees C for 2 h were unable to splice pre-mRNA in vitro. Analysis of snRNPs in the extracts revealed that the U4.U5.U6 small nuclear ribonucleoprotein particle (snRNP) complex was disrupted at both temperatures while U1 and U2 snRNPs remained unaffected at 43 degrees C but were disrupted to certain extent during heat shock at 46 degrees C. During splicing reaction, the extract from cells heat shocked at 43 degrees C formed intermediate splicing complexes alpha and beta but was unable to form a functional spliceosome, complex gamma. Addition of fractions from a normal nuclear extract restored splicing activity only in the extract from cells subjected to heat shock at 43 degrees C. Using this complementation assay, we have partially purified the factor(s) inactivated at this temperature. The purified factor(s) was essentially devoid of snRNAs and snRNPs and resistant to micrococcal nuclease, indicating that the factor(s) inactivated by in vivo heat shock at 43 degrees C is a protein. We have also subjected the nuclear extracts from normal HeLa cells to in vitro heat treatment at 43 or 46 degrees C. The results indicate that during in vitro heat treatment of the extracts the damage to splicing machinery is more extensive than that during in vivo heat shock. These experiments also suggest that the factor(s) inactivated by heat shock at 43 degrees C is different from previously identified thermolabile splicing factors

The Short Non-Coding Transcriptome of the Protozoan Parasite Trypanosoma cruzi

The pathway for RNA interference is widespread in metazoans and participates in numerous cellular tasks, from gene silencing to chromatin remodeling and protection against retrotransposition. The unicellular eukaryote Trypanosoma cruzi is missing the canonical RNAi pathway and is unable to induce RNAi-related processes. To further understand alternative RNA pathways operating in this organism, we have performed deep sequencing and genome-wide analyses of a size-fractioned cDNA library (16–61 nt) from the epimastigote life stage. Deep sequencing generated 582,243 short sequences of which 91% could be aligned with the genome sequence. About 95–98% of the aligned data (depending on the haplotype) corresponded to small RNAs derived from tRNAs, rRNAs, snRNAs and snoRNAs. The largest class consisted of tRNA-derived small RNAs which primarily originated from the 3′ end of tRNAs, followed by small RNAs derived from rRNA. The remaining sequences revealed the presence of 92 novel transcribed loci, of which 79 did not show homology to known RNA classes