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adenosine3phosphate

Adenosine3phosphate is a hypothetical nucleotide derivative consisting of the nucleoside adenosine bearing a single phosphate group esterified to the 3'-hydroxyl of the ribose. It is distinguished from adenosine monophosphate (AMP), in which the phosphate is attached to the 5'-position and participates in standard nucleotide metabolism.

In terms of naming and structure, adenosine3phosphate can be described as a 3'-phosphoester of adenosine. It

Occurrence and synthesis of this compound are not part of mainstream biology. It is not known as

Properties and potential roles are largely exploratory. The presence of a 3'-phosphate can alter charge distribution,

See also: adenosine, adenosine monophosphate, nucleotides, phosphate esters.

is
sometimes
referred
to
as
3'-adenosine
phosphate
or
3'-phosphoadenosine,
and
represents
a
monocovalent
modification
relative
to
the
canonical
5'-phosphate
nucleotides.
a
common
cellular
metabolite
and
does
not
play
a
defined
role
in
central
metabolism.
It
may
be
produced
synthetically
in
laboratory
settings
by
selective
phosphorylation
of
the
3'-hydroxyl
group
of
adenosine.
In
biological
contexts,
3'-phosphate
groups
are
more
typically
associated
with
RNA
termini
or
with
specialized
signaling
molecules,
rather
than
free
3'-phospho-nucleosides.
hydrogen
bonding,
and
interactions
with
enzymes
compared
with
5'-phosphates,
which
may
influence
binding
to
kinases,
polymerases,
or
phosphatases.
As
such,
adenosine3phosphate
is
mainly
of
interest
as
a
chemical
probe
or
a
synthetic
standard
for
nucleotide
chemistry
and
enzymology,
rather
than
a
recognized
physiological
metabolite.