Home

protejezelike

Protejezelike refers to proteins or protein domains that adopt a protease-like fold or substrate-binding mode but do not display proteolytic catalytic activity. The term appears in speculative and design-focused literature and is not part of a formal, universally accepted classification. In many proposals, protejezelike molecules retain the structural features common to serine or metalloproteases—such as a paired catalytic-cleft geometry or a solvent-accessible binding pocket—yet lack one or more catalytic residues, rendering them catalytically inactive.

Structural and functional properties: Protejezelike candidates often remain structurally stable and can bind peptide substrates or

Potential roles and applications: In biology, they are hypothesized to act as regulators of proteolysis, scaffolds

Discovery and status: The concept has been explored mainly through computational modeling, directed evolution, and structural

inhibitors
with
affinities
similar
to
active
proteases,
even
though
they
do
not
hydrolyze
substrates.
Some
may
exhibit
conformational
flexibility
that
modulates
binding
or
acts
as
a
decoy
for
proteases,
influencing
proteolytic
networks.
for
protease
complexes,
or
decoys
that
temper
protease
activity.
In
synthetic
biology
and
drug
design,
protejezelike
scaffolds
are
used
to
study
substrate
recognition,
to
engineer
specificity,
or
to
create
protease-inhibitor
interfaces
without
triggering
substrate
turnover.
studies
of
inactive
homologs.
There
is
no
established
clinical
or
industrial
application,
and
practical
assessment
requires
careful
evaluation
of
stability,
binding,
and
regulation
in
relevant
systems.