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deubiquitinating

Deubiquitinating, or deubiquitination, is the enzymatic removal of ubiquitin molecules from proteins. It is carried out by deubiquitinating enzymes (DUBs), a diverse family of proteases that reverse ubiquitination, thereby influencing protein stability, localization, and signaling. Ubiquitination attaches ubiquitin to substrates via E1, E2, and E3 enzymes, generating mono- or polyubiquitin chains that convey distinct cellular outcomes.

DUBs hydrolyze isopeptide bonds between ubiquitin and substrates or within ubiquitin chains, counteracting ubiquitination and recycling

Biological roles of DUBs are diverse, spanning protein quality control, DNA repair, cell cycle progression, transcription,

Research on deubiquitination uses genetics, biochemistry, and chemical biology. Tools include activity-based probes and selective inhibitors

ubiquitin.
They
are
organized
into
several
families,
including
ubiquitin-specific
proteases
(USPs),
ubiquitin
C-terminal
hydrolases
(UCHs),
ovarian
tumor
proteases
(OTUs),
Machado-Joseph
disease
proteases
(MJDs),
and
JAMM/MPN+
metalloproteases.
Most
DUBs
are
cysteine
proteases,
while
JAMMs
are
metalloproteases.
DUBs
show
specificity
for
substrates
and
chain
linkages,
and
their
activity
is
influenced
by
localization
and
regulatory
cofactors.
and
immune
signaling.
By
editing
ubiquitin
signals,
they
can
prevent
degradation,
alter
signaling
pathways,
or
modulate
protein
activity.
DUB
function
is
highly
context
dependent,
and
dysregulation
is
linked
to
cancers,
neurodegenerative
diseases,
and
inflammatory
conditions.
to
study
individual
DUBs.
Because
DUBs
sculpt
ubiquitin
landscapes,
they
are
considered
potential
therapeutic
targets
for
diseases
where
ubiquitin
signaling
is
perturbed.