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multienzyme

Multienzyme refers to a system in which two or more enzymes participate in a sequence of chemical transformations, often acting in a coordinated manner to convert substrates into products. The term can describe either a single enzyme that contains multiple catalytic domains or a physical assembly of separate enzymes that function together as a unit.

In single-molecule multienzyme proteins, multiple active sites within one polypeptide chain enable sequential reactions without releasing

Organizational strategies vary: some systems are organized around a rigid scaffold protein that holds enzymes in

Research methods span biochemistry, structural biology, and cell biology. Techniques include enzyme assays, X-ray crystallography and

intermediates,
a
phenomenon
known
as
substrate
channeling.
In
multienzyme
complexes,
distinct
enzymes
associate
into
a
supramolecular
assembly
that
channels
substrates
and
intermediates
along
a
metabolic
pathway.
Well-known
examples
include
the
pyruvate
dehydrogenase
complex,
which
converts
pyruvate
to
acetyl-CoA
through
several
steps
within
a
single
complex;
fatty
acid
synthase,
which
orchestrates
successive
chain
elongation
steps;
and
the
purinosome,
a
proposed
transient
assembly
involved
in
purine
biosynthesis.
place;
others
are
dynamic,
forming
and
dissolving
in
response
to
metabolic
state.
Benefits
include
increased
efficiency
by
reducing
diffusion
losses,
coordinated
regulation,
and
protection
of
labile
intermediates.
Substrate
channeling
can
also
facilitate
coupling
of
exergonic
and
endergonic
steps
and
minimize
side
reactions.
cryo-electron
microscopy,
cross-linking
and
mass
spectrometry,
and
advanced
imaging
to
observe
interactions
in
living
cells.
Multienzyme
systems
are
widespread
in
metabolism
and
are
a
focus
in
biochemistry,
systems
biology,
and
synthetic
biology
for
understanding
regulation
and
for
engineering
new
catalytic
pathways.