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ketosynthase

Ketosynthase refers to a class of enzymes that catalyze carbon–carbon bond formation during fatty acid and polyketide biosynthesis. In both systems, the key step is a condensation that extends a growing acyl chain by two carbons from a malonyl-ACP donor. The beta-ketoacyl-ACP synthase (KS) domain or enzyme accepts an acyl group bound to a carrier protein and condenses it with malonyl-ACP, releasing CO2 and forming a beta-ketoacyl-ACP product. The reaction is typically mediated by a catalytic cysteine that forms an acyl thioester, with other active-site residues organizing the condensation and decarboxylation steps.

In bacteria and fungi, KS enzymes are organized differently in fatty acid synthases. Type II fatty acid

The KS family is a common target in biotechnology and medicine. Inhibitors such as cerulenin and platensimycin

synthases
use
discrete
KS
enzymes
such
as
FabB
and
FabF
to
extend
the
growing
chain,
each
with
specific
substrate
specificities.
In
type
I
fatty
acid
synthases,
a
single
multi-domain
polypeptide
carries
a
KS
domain
as
part
of
a
larger
assembly
line.
In
modular
polyketide
synthases,
KS
domains
reside
in
modules
that
also
contain
acyltransferase
(AT)
and
acyl
carrier
protein
(ACP)
domains;
these
KS
modules
drive
successive
condensations
to
build
complex
polyketide
backbones.
block
KS
activity
and
impede
fatty
acid
biosynthesis.
Beyond
inhibition,
KS
domains
are
used
as
markers
in
genome
mining
to
identify
polyketide
gene
clusters
and
in
engineering
efforts
to
create
novel
bioactive
compounds.