In addition to the well-known internal promoter elements of tRNA genes, 5' flanking sequences can also influence the efficiency of transcription by Saccharomyces cerevilsae extracts in vitro. A consensus sequence of yeast tRNA genes in the vicinity of the transcriptional start site can be derived. To determine whether the activity of this region can be attributed to particular sequence features we studied in vitro mutants of the start site region. We found that the start site can be shifted, but only to a limited extent, by moving the conserved sequence element. We found that both a pyrimidine-purine motif (with transcription initiating at the purine) and a small T:A base pair block upstream are important for efficient transcription in vitro. Thus the sequence surrounding the start site of transcription of the yeast tRNAL1u3 gene does play a role in determining transcription efficiency and fixing the precise site of initiation by RNA polymerase Ill.
The orderly expression of specific genes is the basis for cell differentiation. Saccharomyces cerevisiae has two haploid mating types, a and α cells, in which the mating-specific genes are differentially expressed. When a and α cells are committed to mate, their growth is arrested. Here we show that a cryptic polyadenylation site is present inside the coding region of the a-specific STE2 gene, encoding the receptor for the α-factor. The two cell types produce an incomplete STE2 transcript, but only a cells generate full-length STE2 mRNA. We eliminated the cryptic poly(A) signal, thereby allowing the production of a complete STE2 mRNA in α cells. We mutagenized α cells and isolated a mutant producing fulllength STE2 mRNA. The mutation occurred in the ITC1 gene, whose product, together with the product of ISW2, is known to repress STE2 transcriptional initiation. We propose that the regulation of the yeast mating genes is achieved through a concerted mechanism involving transcriptional and posttranscriptional events. In particular, the early poly(A) site in STE2 could contribute to a complete shutoff of its expression in α cells, avoiding autocrine activation and growth arrest. Remarkably, no cryptic poly(A) sites are present in the a-factor receptor STE3 gene, indicating that S. cerevisiae has devised different strategies to regulate the two receptor genes. It is predictable that a correlation between the repression of a gene and the presence of a cryptic poly(A) site could also be found in other organisms, especially when expression of that gene may be harmful.G protein-coupled receptor | mating pathway
We have identified, in extracts from Xenopus laevis germinal vesicles, a 5 exonuclease activity that cleaves double-stranded RNA (dsRNA). Features of the 5 ends of dsRNAs determine whether the strands are symmetrically or asymmetrically degraded. The activity hydrolyzes in the 5 to 3 direction, releasing 5-mononucleotides processively, favoring strands with 5-monophosphate termini; molecules with capped ends are resistant to digestion. Because of its ability to processively digest dsRNA to mononucleotides, we have named the exonuclease Chipper, which could cooperate or compete with Dicer (an endonuclease that produces molecules with a 5-phosphate) in the processing of dsRNA.
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