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dimethylation

Dimethylation is a chemical transformation in which two methyl groups are added to a substrate, producing dimethyl derivatives. The term is used for several distinct types of modification, depending on where the methyl groups attach: N-dimethylation, O-dimethylation, and, less commonly, C-dimethylation.

N-dimethylation occurs on nitrogen atoms, most often with amines. It can convert primary amines (RNH2) to tertiary

O-dimethylation, by contrast, refers to converting alcohols into dimethyl ethers. This is typically accomplished with methylating

C-dimethylation is less common and occurs mainly in specialized synthetic contexts where two methyl groups are

In biology, dimethylation frequently denotes post-translational modifications, notably the dimethylation of lysine or arginine residues on

amines
(RNR2R),
or
secondary
amines
(R2NH)
to
tertiary
amines
with
one
additional
methyl
group.
Common
strategies
use
methylating
agents
such
as
methyl
iodide
or
dimethyl
sulfate,
or
reductive
approaches
that
employ
formaldehyde
to
form
iminium
intermediates
that
are
reduced
to
the
N,N-dimethyl
product.
The
Eschweiler–Clark
reaction
(formaldehyde
and
formic
acid)
is
a
widely
cited
method
for
installing
two
methyl
groups
on
an
amine
without
isolating
intermediates.
agents
(for
example,
dimethyl
sulfate
or
methylating
reagents)
under
basic
conditions.
Dimethyl
ethers
are
common
in
solvents
and
in
protecting-group
chemistry,
but
many
methylating
reagents
are
hazardous
and
require
careful
handling.
introduced
at
carbon
centers
within
a
molecular
framework.
Such
transformations
are
more
limited
compared
with
N-
and
O-dimethylation
and
are
often
part
of
multi-step
synthetic
routes.
proteins.
Enzymes
such
as
methyltransferases
use
donors
like
S-adenosylmethionine
to
install
two
methyl
groups,
with
important
roles
in
gene
regulation
and
signal
transduction.
Detection
methods
include
mass
spectrometry
and
antibody-based
assays.
Dimethylation
of
small
molecules
and
drugs
can
also
influence
properties
such
as
polarity
and
metabolic
stability.