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heme

Heme is a prosthetic group consisting of a porphyrin ring called protoporphyrin IX with an iron ion at its center. The iron is typically in the ferrous (Fe2+) form and can reversibly bind gases such as oxygen in many proteins; in ferric (Fe3+) form it cannot. In most proteins the iron is coordinated by the four nitrogens of the porphyrin and by two axial ligands provided by the surrounding protein, commonly a histidine and a substrate or water molecule. In c-type cytochromes the iron is covalently linked to cysteine residues via thioether bonds.

Heme occurs in a wide range of proteins. Heme b is the most common form and is

Biosynthesis takes place in mitochondria and cytosol through eight steps, beginning with δ-aminolevulinic acid and ending

Functions are diverse: heme is an essential prosthetic group for oxygen transport, electron transfer in the

found
in
hemoglobin
and
myoglobin,
many
cytochromes,
and
catalases.
Heme
a
and
heme
c
are
variants
used
by
specific
enzymes,
notably
cytochrome
c
oxidase
(heme
a)
and
covalently
bound
cytochromes
(heme
c).
with
the
insertion
of
iron
by
ferrochelatase.
The
pathway
is
regulated
mainly
at
the
first
step
by
ALA
synthase
(ALAS);
ALAS1
operates
in
most
tissues,
ALAS2
in
erythroid
cells.
Degradation
occurs
via
heme
oxygenase,
producing
biliverdin,
free
iron,
and
carbon
monoxide;
biliverdin
is
reduced
to
bilirubin
for
excretion.
mitochondrial
respiratory
chain,
and
catalysis
in
various
enzymes.
Free
heme
is
pro-oxidant
and
toxic,
so
organisms
retain
scavenging
systems
such
as
hemopexin
and
haptoglobin.
Porphyrias
are
inherited
or
acquired
disorders
of
heme
synthesis
that
can
cause
abdominal
pain,
photosensitivity,
and
neurologic
symptoms.