Home

dealkylation

Dealkylation is a chemical reaction in which an alkyl group is removed from a molecule. It most commonly refers to the cleavage of carbon–nitrogen (N-dealkylation) bonds in amines and carbon–oxygen (O-dealkylation) bonds in ethers, but can also involve sulfur or carbon–carbon bonds in thioethers or other substrates. In biological systems and in organic synthesis, dealkylation is used to modify activity, polarity, and metabolism.

In enzymatic contexts, oxidative dealkylation is typical, especially via cytochrome P450 enzymes that remove alkyl groups

Applications include drug metabolism, where dealkylation can deactivate or activate compounds and influence clearance; environmental chemistry,

See also deprotection, hydrolysis, oxidation.

from
nitrogen
or
oxygen
atoms,
often
releasing
an
aldehyde
or
ketone
corresponding
to
the
removed
alkyl
chain
(for
example,
demethylation
releases
formaldehyde).
O-dealkylation
of
aryl
ethers
similarly
yields
a
phenol
and
an
aldehyde
or
alcohol
depending
on
the
alkyl
group.
In
chemical
synthesis,
dealkylation
can
be
achieved
by
hydrolysis
under
acidic
or
basic
conditions,
hydrogenolysis,
or
demethylation
reagents,
depending
on
the
substrate.
where
dealkylated
products
may
be
less
persistent;
and
organic
synthesis,
where
deprotection
or
modification
of
alkyl
groups
is
required.
Examples
include
caffeine
metabolism
by
N-demethylation
to
theobromine
and
theophylline;
and
codeine
O-demethylation
to
morphine.