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Article Abstract
The Tup1-Cyc8 complex in Saccharomyces cerevisiae was one of the first global co-repressors of gene transcription discovered. However, despite years of study, a full understanding of the contribution of Tup1p and Cyc8p to complex function is lacking. We examined TUP1 and CYC8 single and double deletion mutants and show that CYC8 represses more genes than TUP1, and that there are genes subject to (i) unique repression by TUP1 or CYC8, (ii) redundant repression by TUP1 and CYC8, and (iii) there are genes at which de-repression in a cyc8 mutant is dependent upon TUP1, and vice-versa. We also reveal that Tup1p and Cyc8p can make distinct contributions to commonly repressed genes most likely via specific interactions with different histone deacetylases. Furthermore, we show that Tup1p and Cyc8p can be found independently of each other to negatively regulate gene transcription and can persist at active genes to negatively regulate on-going transcription. Together, these data suggest that Tup1p and Cyc8p can associate with active and inactive genes to mediate distinct negative and positive regulatory roles when functioning within, and possibly out with the complex.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10446238 | PMC |
| http://dx.doi.org/10.1371/journal.pgen.1010876 | DOI Listing |
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Article Synopsis
- - The study investigates the roles of Tup1 and Cyc8, two proteins in yeast, in the gene repression process, finding that Cyc8 represses more genes than Tup1 and that they can uniquely or redundantly regulate the same genes.
- - Researchers discovered distinct contributions of Tup1 and Cyc8 to gene regulation, indicating that they interact differently with specific histone deacetylases, affecting how genes are repressed or activated.
- - The findings suggest that Tup1 and Cyc8 can function independently to regulate gene transcription and can persist at active genes to influence ongoing transcription, highlighting their complex roles beyond just being part of a repressor complex.