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dicarboxylates

Dicarboxylates are salts or esters of dicarboxylic acids, containing two carboxyl groups. In their common anionic form, the two carboxyl groups are deprotonated, giving dianions with two negative charges. The neutral parent acids include oxalic acid (ethanedioic acid) and their conjugate bases, ethanedioate (oxalate), propanedioate (malonate), butanedioate (succinate), and so on.

In terms of structure, dicarboxylates span a range from the small oxalate to longer diacids with extended

Biological context: Several dicarboxylates are central in metabolism. Succinate (butanedioate) is an intermediate of the citric

Applications and occurrence: Dicarboxylates occur naturally in organisms and can be isolated as salts (e.g., sodium

alkyl
spacers.
The
two
carboxylate
oxygens
provide
versatile
binding
sites
for
metal
ions;
thus
dicarboxylates
are
widely
used
as
bidentate
or
bridging
ligands
in
coordination
chemistry
and
in
metal-organic
frameworks.
Their
flexible
backbones
allow
diverse
geometries
around
metal
centers.
acid
cycle;
malonate
is
a
competitive
inhibitor
of
succinate
dehydrogenase.
Oxalate
readily
chelates
calcium
ions
and
can
contribute
to
calcium
oxalate
stones
in
biological
systems.
Dicarboxylates
also
appear
as
intermediates
or
building
blocks
in
various
biosynthetic
pathways.
succinate)
or
esters
for
chemical
synthesis.
They
are
used
as
ligands
in
inorganic
and
coordination
chemistry,
as
chelating
agents,
and
as
versatile
linkers
in
polymer
and
materials
chemistry.