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ribosephosphate

Ribosephosphate, commonly called ribose-5-phosphate (R5P), is a phosphorylated five-carbon sugar that functions as a key intermediate in metabolism and nucleotide biosynthesis. It provides the ribose backbone required for building ribonucleotides and deoxyribonucleotides.

R5P is mainly generated through the oxidative phase of the pentose phosphate pathway (PPP), which converts glucose-6-phosphate

R5P serves as the direct precursor to PRPP (5-phosphoribosyl-1-pyrophosphate) via PRPP synthetase, a central substrate for

Cellular levels of R5P are linked to overall PPP flux and cellular proliferation. In rapidly dividing cells,

Ribose-5-phosphate is abbreviated as R5P and is sometimes referred to simply as ribose phosphate in broader

into
ribulose-5-phosphate
while
producing
NADPH.
Ribulose-5-phosphate
is
then
isomerized
to
ribose-5-phosphate
by
ribose-5-phosphate
isomerase.
In
addition,
the
non-oxidative
phase
of
PPP
can
supply
R5P
from
glycolytic
intermediates
such
as
fructose-6-phosphate
and
glyceraldehyde-3-phosphate
through
transketolase
and
transaldolase
reactions.
This
flexibility
allows
cells
to
adjust
R5P
production
according
to
NADPH
demand
and
metabolic
state.
nucleotide
biosynthesis.
PRPP
supplies
the
ribose-phosphate
moiety
for
both
de
novo
and
salvage
pathways
of
purine
and
pyrimidine
nucleotides,
as
well
as
other
cofactors
that
incorporate
ribose.
PPP
activity
is
often
upregulated
to
meet
the
dual
needs
for
nucleotide
precursors
and
NADPH
for
reductive
biosynthesis
and
antioxidant
defense.
When
glycolysis
predominates,
non-oxidative
PPP
can
still
generate
R5P
to
support
nucleotide
synthesis,
illustrating
the
pathway’s
metabolic
flexibility.
contexts.