Abstract
prp13-1 is one of the mutants isolated in a screen for defective pre-mRNA splicing at a nonpermissive temperature in fission yeast Schizosaccharomyces pombe. We cloned the prp13(+) gene and found that it encodes U4 small nuclear RNA (snRNA) involved in the assembly of the spliceosome. The prp13-1 mutant produced elongated cells, a phenotype similar to cell division cycle mutants, and displays a high incidence of lagging chromosomes on anaphase spindles. The mutant is hypersensitive to the microtubule-destabilizing drug thiabendazole, supporting that prp13-1 has a defect in chromosomal segregation. We found that the prp13-1 mutation resulted in expression of the ura4(+) gene inserted in the pericentromeric heterochromatin region and reduced recruitment of the heterochromatin protein Swi6p to that region, indicating defects in the formation of pericentromeric heterochromatin, which is essential for the segregation of chromosomes, in prp13-1. The formation of centromeric heterochromatin is induced by the RNA interference (RNAi) system in S. pombe. In prp13-1, the processing of centromeric noncoding RNAs to siRNAs, which direct the heterochromatin formation, was impaired and unprocessed noncoding RNAs were accumulated. These results suggest that U4 snRNA is required for the RNAi-directed heterochromatic gene silencing at the centromeres. In relation to the linkage between the spliceosomal U4 snRNA and the RNAi-directed formation of heterochromatin, we identified a mRNA-type intron in the centromeric noncoding RNAs. We propose a model in which the assembly of the spliceosome or a sub-spliceosome complex on the intron-containing centromeric noncoding RNAs facilitates the RNAi-directed formation of heterochromatin at centromeres, through interaction with the RNA-directed RNA polymerase complex.
Highlights
Ribonucleoprotein particles,3 U1, U2, U4/U6, and U5 snRNPs, and numerous non-snRNP proteins
Noncoding RNAs transcribed from outer repeats are processed to siRNAs, which are responsible for recruiting the RNA interference (RNAi)-induced transcriptional silencing (RITS) complex comprising Ago1, Chp1, and Tas3 to the pericentromeric outer regions [12]
The generation of siRNA is dependent on dsRNA synthesis by the RNA-directed RNA polymerase complex (RDRC) and processing by the Dicer ribonuclease, which physically associate with RITS [13, 14]
Summary
FY711 oril leu ura4-DS/E ade210 h90 swi115 otr1R(dg-glu BamHI-SpeI frag.)SphI::ura4ϩ. The targeting of RITS by siRNAs promotes the dimethylation of histone H3-lysine 9 (H3K9me2) by the Clr4/Rik histone methyltransferase complex, directing the localization of the chromodomain protein Swi, a heterochromatin protein 1 (HP1) homologue, to the centromeric outer regions [12, 15,16,17]. Bayne et al [18] reported that defects in specific splicing factors, such as Cwf10p and Prp10p, affect the generation of siRNAs from noncoding RNAs and the centromeric heterochromatin integrity, the molecular mechanism involved remains unknown. They revealed that Cid12p, a component of RDRC, interacts physically with those splicing factors.
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