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selenocysteine

Selenocysteine, abbreviated Sec and sometimes called the 21st amino acid, is the selenium-containing analog of cysteine. In its side chain the sulfur atom is replaced by selenium, giving a selenol group that is more reactive than a thiol. Sec is incorporated into certain proteins during translation, conferring unique catalytic properties to selenoproteins involved in redox biology and metabolic regulation.

In most organisms, the UGA codon, which normally signals translation termination, is recoded to insert selenocysteine

Selenoproteins containing Sec play roles in antioxidant defense, thyroid hormone metabolism, and redox regulation. Examples include

Discovery of selenocysteine occurred in the mid-20th century, with subsequent work establishing its genetic encoding via

when
a
dedicated
structural
element
called
a
SECIS
(selenocysteine
insertion
sequence)
is
present
in
the
mRNA,
typically
in
the
3'
untranslated
region.
The
Sec
incorporation
machinery
varies
by
domain:
in
bacteria,
a
specialized
tRNA^Sec
is
charged
with
serine
and
converted
to
Sec-tRNA^Sec
by
the
enzyme
SelA,
using
selenophosphate
supplied
by
SelD,
with
the
process
directed
by
SelB.
In
archaea
and
eukaryotes,
Sec-tRNA^Sec
is
formed
from
Ser-tRNA^Sec
via
phosphoryl
transfer
by
PSTK
and
conversion
by
SepSecS,
aided
by
SECIS-binding
proteins
such
as
SBP2
and
eukaryotic
elongation
factors.
glutathione
peroxidases,
thioredoxin
reductases,
and
deiodinases,
among
others.
The
incorporation
of
Sec
is
a
finely
regulated
feature
of
gene
expression
and
varies
among
organisms,
reflecting
evolutionary
adaptations
to
selenium
availability
and
redox
requirements.
the
SECIS
element
and
specialized
translation
factors.
Selenium
biology
and
selenoprotein
function
remain
active
areas
of
research
with
implications
for
nutrition
and
human
health.