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isopentenyladenosine5monophosphate

Isopentenyladenosine-5'-monophosphate is a modified nucleoside monophosphate encountered in RNA biology. It denotes an adenosine residue that has acquired an isopentenyl group at the N6 position, typically formed by transfer of a dimethylallyl moiety from dimethylallyl pyrophosphate (DMAPP) to adenosine. In many organisms, the best-characterized context is tRNA isopentenylation, where a tRNA isopentenyltransferase enzyme catalyzes the prenylation of the adenosine at position 37 (A37) to yield isopentenyladenosine within the tRNA molecule. The reaction uses DMAPP as the donor and releases pyrophosphate. The resulting modified nucleotide is integrated into the tRNA backbone and contributes to proper tRNA folding and codon-anticodon recognition during translation.

Biological significance of the modification includes improved translational accuracy and efficiency, particularly under certain growth or

Analytical detection of isopentenyladenosine-5'-monophosphate typically involves isolation of RNA, enzymatic or chemical digestion to nucleosides or

stress
conditions.
The
presence
of
the
i6A
modification
at
A37
influences
codon-anticodon
interactions
and
can
affect
reading
frame
maintenance.
In
bacteria
and
archaea,
MiaA
and
related
enzymes
are
responsible
for
installing
the
modification;
in
other
domains
of
life,
analogous
prenylation
pathways
may
exist
with
related
enzymes,
though
details
vary
among
lineages.
nucleotides,
followed
by
chromatographic
separation
and
mass
spectrometric
or
radiometric
identification.
The
term
emphasizes
the
monophosphate
form
of
the
modified
nucleotide,
reflecting
its
position
within
the
RNA
backbone.
See
also
tRNA
modification,
MiaA,
and
dimethylallyl
pyrophosphate.