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zymogener

Zymogener, more commonly called zymogens, are inactive precursors of enzymes. They are produced to prevent premature enzymatic activity that could damage tissues, and they require a specific change—usually proteolytic cleavage or a conformational rearrangement—to become active enzymes.

Activation and regulation of zymogens typically follow a cascade. In digestion, pancreatic and gastric zymogens are

Beyond digestion, several blood coagulation factors are also zymogens. Prothrombin, for instance, is activated to thrombin,

Zymogens play a role in development, metabolism, and cellular protection, ensuring enzymes act only where and

Etymology derives from Greek words meaning “ferment” and “generate,” reflecting the historical association of these molecules

secreted
into
the
digestive
tract
in
an
inactive
form
and
activated
in
the
appropriate
compartment.
For
example,
pepsinogen
is
released
by
stomach
cells
and
is
converted
to
the
active
protease
pepsin
in
the
acidic
gastric
lumen.
In
the
small
intestine,
trypsinogen
is
activated
to
trypsin
by
the
enzyme
enteropeptidase,
and
trypsin
then
activates
other
pancreatic
zymogens
such
as
chymotrypsinogen
and
procarboxypeptidases,
amplifying
the
digestive
response.
a
key
enzyme
in
clot
formation,
by
specific
activators
in
the
coagulation
cascade.
when
needed.
Malfunctions
in
zymogen
activation
can
cause
disease.
Premature
activation
within
an
organ
can
lead
to
tissue
damage,
as
seen
in
pancreatitis
when
digestive
enzymes
activate
too
early.
Genetic
mutations
affecting
zymogen
activation
can
predispose
individuals
to
related
disorders,
highlighting
the
importance
of
regulated
proteolysis.
with
enzymatic
activity
that
is
not
yet
unleashed.
Zymogener
is
a
term
used
in
some
languages
to
describe
zymogens.