Acetylated Ubiquitin Modulates the Catalytic Activity of the E1 Enzyme Uba1

Ubiquitin (Ub) signaling requires the covalent passage of Ub among E1, E2, and E3 enzymes. The choice of E2 and E3 enzymes combined with multiple rounds of the cascade leads to the formation of polyubiquitin chains linked through any one of the seven lysines on Ub. The linkage type and length act as a signal to trigger important cellular processes such as protein degradation or the DNA damage response. Recently, proteomics studies have identified that Ub can be acetylated at six of its seven lysine residues under various cell stress conditions. To understand the potential differences in Ub signaling caused by acetylation, we synthesized all possible acetylated ubiquitin (acUb) variants and examined the E1-mediated formation of the corresponding E2 similar to acUb conjugates in vitro using kinetic methods. A Forster resonance energy transfer assay was optimized in which the Ub constructs were labeled with a CyPet fluorophore and the E2 UBE2D1 was labeled with a YPet fluorophore to monitor the formation of E2 similar to Ub conjugates. Our methods enable the detection of small differences that may otherwise be concealed in steady-state ubiquitination experiments. We determined that Ub, acetylated at K11, K27, K33,K48, or K63, has altered turnover numbers for E2 similar to Ub conjugate formation by the E1 enzyme Uba1. This work provides evidence that acetylation of Ub can alter the catalysis of ubiquitination early on in the pathway.