Abstract
Single Rap1p DNA-binding sites are poor activators of transcription of yeast minimal promoters, even when fully occupied in vivo. This low efficiency is due to two independent repression mechanisms as follows: one that requires the presence of histones, and one that requires Hrs1p, a component of the RNA polymerase II mediator complex. Both repression mechanisms were greatly reduced for constructs with tandemly arranged sites. In these constructs, UASrpg sequences (ACACCCATACATTT) activated better than telomere-like sequences (ACACCCACACACCC) in an orientation-dependent manner. Both mutations in the SWI/SNF complex and a deletion of amino acids 597--629 of Rap1p (Tox domain) decreased synergistic effects of contiguous telomeric sites. Conversely, deletion of amino acids 700--798 of Rap1p (Sil domain) made UASrpg and telomeric sites functionally indistinguishable. We propose that the Sil domain masks the main transactivation domain of Rap1p in Rap1p-telomere complexes, where the Tox domain behaves as a secondary activation domain, probably by interacting with chromatin-remodeling complexes. Rap1p DNA-binding sites in ribosomal protein gene promoters are mainly UASrpg-like; their replacement by telomeric sequences in one of these promoters (RPS17B) decreased transcription by two-thirds. The functional differences between UASrpgs and telomeric sequences may thus contribute to the differential expression of Rap1p-regulated promoters in vivo.
Highlights
The yeast transcriptional factor repressor activator protein 1 (Rap1p)1 is a context-dependent regulator
Rap1p binds to a variety of related DNA sequences [4]. We have shown it builds up structurally distinct complexes with two versions of its consensus binding sequence, the UASrpg sequence (5Ј-ACACCCATACATTT-3Ј) and the telomere consensus sequence (5Ј-ACACCCACACACCC-3Ј) [5, 6]
Synergism between adjacent activator proteins is attributable to several mechanisms
Summary
The yeast transcriptional factor repressor activator protein 1 (Rap1p) is a context-dependent regulator. Crystallographic and chemical footprinting data indicate that, when bound to telomeric sequences, the two nearly identical Myblike domains of the Rap1p DNA-binding domain make very similar contacts to two identical DNA half-sites (ACACCC), [5, 7, 8] Some of these contacts are not possible in Rap1p-UASrpg complexes, because of the presence of Ts in the second half-site (ACATTT). When assayed as tandem repeats, UASrpgs showed a strong synergistic effect, which was orientation-dependent, whereas telomeric sequences showed a lower synergism, irrespective of orientation [5, 6] This contrasts with the results from single sites, which were not affected by the orientation or the version of the site [5]. It affects transcription of about 25% of yeast genes either by increasing (15%) or
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
