Interaction with the Assembly Chaperone Ump1 Promotes Incorporation of the ?7 Subunit into Half-Proteasome Precursor Complexes Driving Their Dimerization.

Biogenesis of the eukaryotic 20S proteasome core particle (PC) is a complex process assisted by specific chaperones absent from the active complex. The first identified chaperone, Ump1, was found in a precursor complex (PC) called 15S PC. Yeast cells lacking Ump1 display strong defects in the autocatalytic processing of ? ...
subunits, and consequently have lower proteolytic activity. Here, we dissect an important interaction of Ump1 with the ?7 subunit that is critical for proteasome biogenesis. Functional domains of Ump1 and the interacting proteasome subunit ?7 were mapped, and the functional consequences of their deletion or mutation were analyzed. Cells in which the first sixteen Ump1 residues were deleted display growth phenotypes similar to ump1?, but massively accumulate 15S PC and distinct proteasome intermediate complexes containing the truncated protein. The viability of these cells depends on the transcription factor Rpn4. Remarkably, ?7 subunit overexpression re-established viability in the absence of Rpn4. We show that an N-terminal domain of Ump1 and the propeptide of ?7 promote direct interaction of the two polypeptides in vitro. This interaction is of critical importance for the recruitment of ?7 precursor during proteasome assembly, a step that drives dimerization of 15S PCs and the formation of 20S CPs.
Mesh Terms:
Dimerization, Molecular Chaperones, Mutation, Proteasome Endopeptidase Complex, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins
Biomolecules
Date: Feb. 04, 2022
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