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thiolases

Thiolases are enzymes of the thiolase superfamily that catalyze reversible thiolysis and condensation reactions of acyl-CoA substrates. The best-known reaction is the condensation of two acetyl-CoA to form acetoacetyl-CoA, and the reverse thiolytic cleavage of acetoacetyl-CoA into two acetyl-CoA. These activities are central to fatty acid metabolism and to the production and utilization of ketone bodies.

Two major activities are distinguished: thiolase I (acetyl-CoA acetyltransferase), which condenses acetyl-CoA to acetoacetyl-CoA; and thiolase

Mechanistically, thiolases operate via a catalytic cysteine residue that forms a covalent acetyl-enzyme intermediate, aided by

Defects in mitochondrial acetoacetyl-CoA thiolase cause beta-ketothiolase deficiency, a rare metabolic disorder characterized by ketoacidosis, hypoglycemia,

Thiolases are around 390 amino acids in length and function in central carbon metabolism, linking fatty acid

II
(acetoacetyl-CoA
thiolase),
which
cleaves
acetoacetyl-CoA
into
acetyl-CoA.
In
eukaryotes
these
enzymes
are
found
in
mitochondria
and/or
peroxisomes,
depending
on
tissue
and
species;
bacteria
possess
thiolases
as
well.
In
mammals,
mitochondrial
thiolases
participate
in
beta-oxidation
and
energy
production,
while
acetoacetyl-CoA
generated
by
thiolase
I
serves
as
a
precursor
for
ketone
body
and
cholesterol
biosynthesis.
histidine
and
asparagine
residues
in
the
active
site.
The
reaction
proceeds
through
a
ping-pong
mechanism
with
multiple
CoA
substrates.
The
enzymes
are
typically
homodimers
or
homotetramers
and
adopt
the
conserved
thiolase
fold.
and
metabolic
crises,
especially
in
infancy.
oxidation
to
energy
production,
ketogenesis,
and
isoprenoid/cholesterol
biosynthesis.