Home

cisprenyltransferases

Cis-prenyltransferases are enzymes that catalyze the sequential condensation of isopentenyl pyrophosphate (IPP) units onto an allylic pyrophosphate starter to form long-chain polyprenyl diphosphates with cis (Z) double bonds. This stereochemistry distinguishes them from trans-prenyltransferases, which generate trans-configured chains.

In bacteria, undecaprenyl pyrophosphate synthase (UPPS) is the archetypal cis-prenyltransferase. It builds undecaprenyl diphosphate, a lipid

Reaction and structure: cis-prenyltransferases use IPP as the extender, adding multiple IPP units to an allylic

Significance: Because bacterial UPPS is essential for cell-wall biosynthesis, cis-prenyltransferases are of interest as antibiotic targets.

carrier
that
anchors
peptidoglycan,
teichoic
acids,
and
other
cell
wall
precursors.
In
eukaryotes
and
archaea,
cis-prenyltransferases
participate
in
dolichol
phosphate
biosynthesis.
The
eukaryotic
enzyme
is
a
heteromeric
complex
of
dehydrodolichyl
diphosphate
synthase
(DHDDS)
and
NgBR,
which
produces
dehydrodolichyl
diphosphate
that
is
subsequently
reduced
and
phosphorylated
to
dolichol
phosphate,
a
carrier
in
N-linked
glycosylation.
starter
substrate
and
generating
a
polyprenyl
chain
with
cis
double
bonds.
The
final
chain
length
is
enzyme-specific
and
is
often
determined
by
the
size
of
the
active-site
pocket
or
by
associated
regulatory
subunits.
Many
members
are
membrane-associated
and
form
multisubunit
complexes.
In
humans,
defects
in
dolichol
biosynthesis
can
cause
congenital
disorders
of
glycosylation,
highlighting
the
importance
of
cis-prenyltransferase
activity
for
proper
protein
glycosylation.