The Arg/N-degron pathway of Saccharomyces cerevisiae is mediated by two interacting E3 ubiquitin ligases, Ubr1 and Ufd4. We show here that the mitotic checkpoint kinase Chk1 bears a C-degron that can be recognized by both Ubr1 and Ufd4. Ubr1 is an E3 that can target both N-degrons and C-degrons. Deleting 4 residues from the C terminus of full-length Chk11-527 abrogates the bulk of Ubr1/Ufd4 affinity for the resulting Chk11-523, inhibits its polyubiquitylation and degradation, and arrests cell growth. Toxicity of the 4-residue C-terminally (Ct)-deleted Chk11-523 was traced to its kinase activity, since the kinase-inactive Formula: see text was nontoxic. The L506R mutation is known to activate Chk1 kinase in a way that bypasses other Chk1 activation pathways. Both kinase-active and kinase-inactive Chk1 proteins that contained the L506R mutation (Formula: see text and Formula: see text) were short-lived in vivo, in contrast to wildtype Chk11-527. Furthermore, the catalytic N-terminal (Nt) domain of Chk1 physically interacted with its Ct-domain. These and other results strongly suggested the following mechanism of Chk1 regulation. Ct-residues of Chk11-527 are a part of its C-degron, targeted by Ubr1/Ufd4 E3s. But the Ct-domain of Chk11-527 (including its C-degron) can also bind to the catalytic Nt-domain. The resulting conformation of Chk11-527 is inactive as a kinase and relatively long-lived, since the catalytic Nt-domain sterically sequesters C-degron. An induced (e.g., through a regulatory phosphorylation) dissociation of Ct-domain from Nt-domain activates the catalytic Nt-domain and also exposes the C-degron of Chk1. Thus, activation of Chk1 kinase would make it, simultaneously, a short-lived protein.
Oh et al. (Tue,) studied this question.