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Dynamic sumoylation of promoter-bound general transcription factors facilitates transcription by RNA polymerase II

Mohammad S. Baig, Yimo Dou, Benjamin G. Bergey, Russell Bahar, Justin Burgener, Marjan Moallem, J. Bryan McNeil, Akhi Akhter, Giovanni L. Burke, Veroni S. Sri Theivakadadcham, P. Richard, Damien D’Amours, Emanuel Rosonina

2021PLoS Genetics21 citationsDOIOpen Access PDF

Abstract

Transcription-related proteins are frequently identified as targets of sumoylation, including multiple subunits of the RNA polymerase II (RNAPII) general transcription factors (GTFs). However, it is not known how sumoylation affects GTFs or whether they are sumoylated when they assemble at promoters to facilitate RNAPII recruitment and transcription initiation. To explore how sumoylation can regulate transcription genome-wide, we performed SUMO ChIP-seq in yeast and found, in agreement with others, that most chromatin-associated sumoylated proteins are detected at genes encoding tRNAs and ribosomal proteins (RPGs). However, we also detected 147 robust SUMO peaks at promoters of non-ribosomal protein-coding genes (non-RPGs), indicating that sumoylation also regulates this gene class. Importantly, SUMO peaks at non-RPGs align specifically with binding sites of GTFs, but not other promoter-associated proteins, indicating that it is GTFs specifically that are sumoylated there. Predominantly, non-RPGs with SUMO peaks are among the most highly transcribed, have high levels of TFIIF, and show reduced RNAPII levels when cellular sumoylation is impaired, linking sumoylation with elevated transcription. However, detection of promoter-associated SUMO by ChIP might be limited to sites with high levels of substrate GTFs, and promoter-associated sumoylation at non-RPGs may actually be far more widespread than we detected. Among GTFs, we found that TFIIF is a major target of sumoylation, specifically at lysines 60/61 of its Tfg1 subunit, and elevating Tfg1 sumoylation resulted in decreased interaction of TFIIF with RNAPII. Interestingly, both reducing promoter-associated sumoylation, in a sumoylation-deficient Tfg1-K60/61R mutant strain, and elevating promoter-associated SUMO levels, by constitutively tethering SUMO to Tfg1, resulted in reduced RNAPII occupancy at non-RPGs. This implies that dynamic GTF sumoylation at non-RPG promoters, not simply the presence or absence of SUMO, is important for maintaining elevated transcription. Together, our findings reveal a novel mechanism of regulating the basal transcription machinery through sumoylation of promoter-bound GTFs.

Topics & Concepts

SUMO proteinBiologyRNA polymerase IITranscription (linguistics)Transcription factor II DPromoterGeneral transcription factorTranscription factor II FChromatin immunoprecipitationRNF4Molecular biologyRNA polymerase II holoenzymeCell biologyGeneTranscription factorGeneticsZinc fingerUbiquitinGene expressionLinguisticsPhilosophyUbiquitin and proteasome pathwaysRNA modifications and cancerGenomics and Chromatin Dynamics
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