Abstract
The Saccharomyces cerevisiae Spt-Ada-Gcn5 acetyltransferase (SAGA) protein complex is a coactivator for transcription by RNA polymerase II and has various activities, including acetylation and deubuiqitination of histones and recruitment of TATA-binding protein to promoters. The Spt7p subunit is subject to proteolytic cleavage at its C terminus resulting in removal of the Spt8p-binding domain and generation of the SAGA-related SALSA/SAGA-like (SLIK) protein complex. Here, we report identification of the protease responsible for this cleavage. Screening of a protease knock-out collection revealed PEP4 to be required for cleavage of Spt7p within SAGA in vitro. Endogenous formation of truncated Spt7p was abolished in cells lacking PEP4. Purified Pep4p but not catalytic dead mutant Pep4p or unrelated Prc1p protease specifically cleaved Spt7p within SAGA into SLIK-related Spt7p. Interestingly, SAGA lacking Spt8p was more sensitive to Pep4p-mediated truncation of Spt7p, suggesting that Spt8p counteracted its own release from SAGA. Strains mimicking constitutive SLIK formation showed increased resistance to rapamycin treatment, suggesting a role for SLIK in regulating cellular responses to nutrient stress.
Highlights
Histone acetyltransferase module, a deubiquitination module, and the Spt3p/Spt8p/TBP module (6 – 8)
B, activity present in yeast whole cell extracts (WCEs) cleaves Spt7pSAGA into Spt7pSLIK
Purified Spt-Ada-Gcn5 acetyltransferase (SAGA)-only was incubated with yeast WCE for 30 min at 30 °C, and Spt7p processing was monitored by immunoblotting using an anti-HA antibody
Summary
Histone acetyltransferase module, a deubiquitination module, and the Spt3p/Spt8p/TBP module (6 – 8). This cleavage is essential for formation of the SLIK protein complex, but the protease responsible for this process has not been identified so far. We identify Pep4p as the protease responsible for the cleavage of Spt7p and for the formation of the SLIK protein complex.
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