Home

carboxymethylation

Carboxymethylation is a chemical modification in which a carboxymethyl group (-CH2-COOH) is introduced into a molecule. This is typically achieved by reacting the substrate with a chloroacetic acid derivative, such as monochloroacetic acid or its salts, under basic conditions. The carboxymethyl group is transferred to nucleophilic sites on the substrate, most often hydroxyl, amine, or thiol groups, yielding O-, N-, or S-carboxymethyl derivatives.

The reaction is widely used in carbohydrate and polymer chemistry. In polysaccharides such as cellulose, starch,

Typical conditions involve base activation, commonly NaOH, in aqueous solution and a chloroacetic acid derivative as

and
chitosan,
carboxymethylation
produces
carboxymethyl
ethers
(for
example,
sodium
carboxymethyl
cellulose,
CMC)
that
are
water-soluble
and
possess
anionic
character.
In
biochemistry,
carboxymethylation
of
cysteine
residues
converts
thiols
to
S-carboxymethyl
cysteine
and
can
be
used
to
study
protein
structure,
protect
reactive
sites,
or
modify
enzyme
properties.
The
method
also
allows
introduction
of
carboxymethyl
groups
onto
amines,
expanding
the
range
of
possible
derivatives
and
functional
properties.
the
electrophile.
The
reaction
rate
and
product
distribution
depend
on
the
nucleophilicity
of
the
target
site
and
the
reaction
milieu.
The
resulting
carboxymethylated
products
often
exhibit
increased
solubility,
altered
charge
density,
and
new
functional
handles
for
further
chemical
modification.