Regulation of deubiquitinase proteolytic activity
OW Huang, AG Cochran - Current Opinion in Structural Biology, 2013 - Elsevier
OW Huang, AG Cochran
Current Opinion in Structural Biology, 2013•ElsevierHighlights•Phosphorylation of USP1 leads to binding of allosteric activator UAF1.•Activation
of DUBA by a single phosphorylation event.•Allosteric activation of USP7 by binding to
GMPS.•Active UBP8 stabilized by SAGA DUB module subunits.•Reversible inactivation of
DUBs by ROS through sulfenic acid formation.Deubiquitinases (DUBs) are proteolytic
enzymes whose function is to oppose the process of the conjugation of ubiquitin to a specific
substrate. This task is accomplished through an enzymatic cascade involving E1, E2, and E3 …
of DUBA by a single phosphorylation event.•Allosteric activation of USP7 by binding to
GMPS.•Active UBP8 stabilized by SAGA DUB module subunits.•Reversible inactivation of
DUBs by ROS through sulfenic acid formation.Deubiquitinases (DUBs) are proteolytic
enzymes whose function is to oppose the process of the conjugation of ubiquitin to a specific
substrate. This task is accomplished through an enzymatic cascade involving E1, E2, and E3 …
Highlights
- Phosphorylation of USP1 leads to binding of allosteric activator UAF1.
- Activation of DUBA by a single phosphorylation event.
- Allosteric activation of USP7 by binding to GMPS.
- Active UBP8 stabilized by SAGA DUB module subunits.
- Reversible inactivation of DUBs by ROS through sulfenic acid formation.
Deubiquitinases (DUBs) are proteolytic enzymes whose function is to oppose the process of the conjugation of ubiquitin to a specific substrate. This task is accomplished through an enzymatic cascade involving E1, E2, and E3 enzymes, which collectively produce a product that is either monoubiquitinated, or polyubiquitinated with multiple single ubiquitins or with ubiquitin chains. The resulting modifications may impact protein function or may lead to the degradation of the ubiquitinated species, so the removal of such modifications must be tightly regulated. On the basis of recent work featuring crystal structures and detailed biochemical or biophysical studies of DUBs, we will discuss here how posttranslational modifications, protein binding partners, and reactive oxygen species regulate their catalytic activity.
Elsevier