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calnexin

Calnexin is a type I integral membrane chaperone of the endoplasmic reticulum (ER) in eukaryotic cells and a central component of the ER folding and quality-control system. It has a single transmembrane domain that anchors it in the ER membrane, with a large luminal domain that acts as a lectin-like chaperone. Calnexin is closely related to its soluble partner calreticulin and is part of the calnexin/calreticulin cycle that assists the folding of N-linked glycoproteins.

The primary function of calnexin is to bind newly synthesized glycoproteins bearing monoglucosylated N-linked glycans. By

In the normal folding pathway, glucose residues are progressively removed by glucosidases, allowing properly folded proteins

recognizing
these
glycan
structures,
calnexin
retains
folding
intermediates
in
the
ER
and
coordinates
their
maturation.
It
forms
a
functional
complex
with
the
thiol-disulfide
isomerase
ERp57,
which
helps
establish
correct
disulfide
bonds
in
client
proteins.
Calnexin
also
interacts
with
enzymes
of
N-glycan
processing
and
with
UDP-glucose
glycoprotein
glucosyltransferase
(UGGT),
which
reglucosylates
misfolded
glycoproteins
to
re-enter
the
calnexin/calreticulin
cycle
for
another
folding
attempt.
to
exit
the
ER
and
travel
to
the
Golgi
apparatus.
If
a
glycoprotein
remains
misfolded,
UGGT
adds
a
glucose
to
its
N-glycan,
promoting
another
round
of
binding
to
calnexin
(and
calreticulin).
Persistent
misfolding
can
lead
to
retention
in
the
ER
and
targeting
for
ER-associated
degradation.
Calnexin
therefore
contributes
to
protein
quality
control,
ensuring
that
only
correctly
folded
glycoproteins
proceed
along
the
secretory
pathway.