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phosphopentomutase

Phosphopentomutase is an enzyme that catalyzes the reversible intramolecular transfer of a phosphate group within pentose phosphates, interconverting ribose-1-phosphate and ribose-5-phosphate. This reaction links ribose salvage pathways to the pentose phosphate pathway, supplying ribose-5-phosphate for nucleotide biosynthesis and central metabolism.

Like other enzymes in the alpha-D-phosphoglucomutase/phosphomutase superfamily, phosphopentomutase operates via a covalent phosphoserine intermediate and requires

Structurally, phosphopentomutase is usually a soluble cytosolic enzyme of roughly 450–500 amino acids and adopts a

Biological role and occurrence: phosphopentomutase is found in bacteria and other organisms where pentose catabolism or

a
divalent
metal
ion,
typically
Mg2+
or
Mn2+,
for
activity.
The
catalytic
serine
in
the
active
site
is
temporarily
phosphorylated
by
the
substrate,
enabling
intramolecular
phosphate
transfer
and
regeneration
of
the
active
site
phosphate
for
subsequent
turnover.
four-domain
architecture
characteristic
of
the
mutase
family.
The
active-site
serine
lies
within
a
conserved
sequence
motif
and
coordinates
substrate
binding
and
phosphate
transfer,
with
the
reaction
proceeding
through
domain
movements
that
reposition
the
phosphate
group.
nucleotide
degradation
provides
ribose-1-phosphate
that
must
be
converted
to
ribose-5-phosphate.
In
bacteria
such
as
Escherichia
coli,
the
enzyme
contributes
to
ribose
salvage
and
integration
with
the
pentose
phosphate
pathway,
supporting
nucleotide
turnover
and
energy
metabolism.
The
enzyme
is
studied
for
its
catalytic
mechanism,
substrate
specificity,
and
its
relationship
to
other
sugar-phosphate
mutases
within
the
same
superfamily.