Abstract
Eukaryotic RNA polymerase (Pol) III terminates transcription at short runs of T residues in the coding DNA strand. By genomic analysis, we found that T(5) and T(4) are the shortest Pol III termination signals in yeasts and mammals, respectively, and that, at variance with yeast, oligo(dT) terminators longer than T(5) are very rare in mammals. In Saccharomyces cerevisiae, the strength of T(5) as a terminator was found to be largely influenced by both the upstream and the downstream sequence context. In particular, the CT sequence, which is naturally present downstream of T(5) in the 3'-flank of some tDNAs, was found to act as a terminator-weakening element that facilitates translocation by reducing Pol III pausing at T(5). In contrast, tDNA transcription termination was highly efficient when T(5) was followed by an A or G residue. Surprisingly, however, when a termination-proficient T(5) signal was taken out from the tDNA context and placed downstream of a fragment of the SCR1 gene, its termination activity was compromised, both in vitro and in vivo. Even the T(6) sequence, acting as a strong terminator in tRNA gene contexts, was unexpectedly weak within the SNR52 transcription unit, where it naturally occurs. The observed sequence context effects reflect intrinsic recognition properties of Pol III, because they were still observed in a simplified in vitro transcription system only consisting of purified RNA polymerase and template DNA. Our findings strengthen the notion that termination signal recognition by Pol III is influenced in a complex way by the region surrounding the T cluster and suggest that read-through transcription beyond T clusters might play a significant role in the biogenesis of class III gene products.
Highlights
Eukaryotic RNA polymerase (Pol)1 III is unique among DNAdependent RNA polymerases in recognizing a simple run of T residues on the coding strand as a termination signal, in the apparent absence of accessory factors
In S. cerevisiae and S. pombe, T4 was never found as the sole potential termination signal: a run of 5 or more T residues was always present, and it always started within the first 40 bp following the end of the mature tRNA coding sequence
This was taken as an indication that runs of less than 5 T residues are not used as Pol III terminators in yeast and that Pol III termination signals appear within the first 40 bp of 3Ј-flanking sequence
Summary
RNA polymerase; TFIIIB and TFIIIC, transcription factor IIIB and IIIC, respectively; nt, nucleotide(s); SnoRNA, small nucleolar RNA. A recent study has further suggested that the termination-prone character of Pol III may come from a marked propensity of the enzyme toward RNA release, such that every T-rich sequence at which Pol III pauses for a sufficiently long time would become a termination site [15]. Such a termination propensity takes us to another important question, arising from the observation that Pol IIItranscribed genes often contain internal stretches of T residues that would be predicted to provoke transcription termination.
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