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chaperonin

Chaperonins are a class of molecular chaperones that assist in the folding of proteins, especially newly synthesized or stress-denatured polypeptides. They work by providing an isolated folding chamber that prevents aggregation and facilitates attainment of the native conformation in an ATP-dependent cycle. By accelerating correct folding, chaperonins help maintain proteome integrity and cellular function.

Most well-studied chaperonins fall into two groups. Group I chaperonins are found in bacteria and in the

A canonical example is the bacterial GroEL–GroES system. GroEL is a tetradecamer composed of two seven-subunit

Chaperonins are essential for viability in many organisms, assist folding of a broad range of proteins, and

organelles
of
eukaryotes,
such
as
mitochondria
and
chloroplasts.
They
form
two
stacked,
seven-subunit
rings
(a
double
ring)
that
create
a
central
folding
chamber.
A
separate
co-chaperonin,
GroES,
binds
to
one
ring
to
seal
the
chamber
during
folding.
Group
II
chaperonins
are
present
in
archaea
and
in
the
cytosol
of
eukaryotic
cells;
they
lack
a
separate
co-chaperonin
and
instead
possess
built-in
lid
structures
that
close
the
chamber.
rings;
GroES
is
a
heptameric
cap.
Substrates
bind
to
the
hydrophobic
interior
of
the
open
GroEL
ring.
ATP
binding
induces
conformational
changes
that
promote
GroES
binding
and
chamber
closure.
After
ATP
hydrolysis,
the
folded
or
partially
folded
substrate
is
released
into
the
cytosol,
and
the
cycle
can
repeat.
help
prevent
aggregation
under
stress.
They
also
represent
potential
targets
for
antimicrobial
strategies,
given
the
reliance
of
bacteria
on
their
chaperonin
systems.