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endochitinases

Endochitinases are enzymes that degrade chitin by cleaving internal β-1,4-glycosidic bonds within the polymer. This mode of action releases short chito-oligosaccharides rather than monomeric units, distinguishing endochitinases from exochitinases that dismantle the chain from the ends. Chito-oligosaccharides produced by endochitinases can vary in length and acetylation.

Most endochitinases belong to the glycoside hydrolase family 18 (GH18), with plant endochitinases often classified in

Substrate specificity among endochitinases varies. They generally act on chitin, a polymer of N-acetylglucosamine, and can

Biological roles of endochitinases include nutrient acquisition from chitin-containing organisms, such as fungi and crustaceans, as

Industrially, endochitinases are exploited to produce defined chitooligosaccharides for applications in agriculture, medicine, and cosmetics, and

GH19.
Many
enzymes
contain
a
catalytic
domain
and,
in
some
cases,
a
chitin-binding
module
that
helps
target
crystalline
chitin
in
nature.
The
catalytic
mechanism
typically
involves
two
conserved
residues,
commonly
an
aspartate
and
a
glutamate,
functioning
in
a
retaining
reaction
to
hydrolyze
the
glycosidic
bond.
differ
in
their
preference
for
crystalline
versus
soluble
forms
and
in
tolerance
to
substrate
acetylation.
Some
enzymes
show
activity
on
related
substrates
such
as
chitosan,
but
activity
profiles
are
diverse
across
organisms.
well
as
defense
mechanisms
in
plants
where
chitin
fragments
act
as
immune
elicitors.
In
fungi
and
bacteria,
endochitinases
contribute
to
cell
wall
remodeling
and
interaction
with
other
microbes.
for
bioconversion
of
chitinous
waste.
Ongoing
research
focuses
on
improving
activity
toward
crystalline
chitin,
stability
under
process
conditions,
and
tailoring
substrate
specificity
through
protein
engineering.