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gammalinkages

Gammalinkages refer to covalent bonds formed through the gamma-carboxyl group of glutamate residues, producing gamma-glutamyl bonds that are distinct from the common alpha-peptide linkages found in most proteins. The term is used to describe amide bonds where the linkage is made at the side-chain gamma carboxyl carbon rather than the standard alpha-carboxyl carbon.

In biochemistry, the most widely known example is the gamma-glutamyl bond found in glutathione, a tripeptide

Gammalinkages occur notably in glutathione biology and in certain gamma-glutamyl peptides that arise from post-translational processing

Terminology related to gammalinkages often emphasizes gamma-glutamyl bonds and the gamma-glutamyl cycle. While relatively rare compared

composed
of
gamma-glutamyl,
cysteinyl,
and
glycine
residues.
This
bond
links
the
gamma-carboxyl
of
the
terminal
glutamate
to
the
amino
group
of
cysteine,
creating
a
gamma-glutamyl
peptide.
Enzymes
such
as
gamma-glutamyl
transpeptidase
catalyze
transfers
that
generate
or
modify
gamma-glutamyl
linkages,
playing
a
central
role
in
the
gamma-glutamyl
cycle
and
related
metabolism.
or
enzymatic
modification.
They
contribute
to
distinctive
chemical
properties,
including
altered
susceptibility
to
hydrolysis
and
unique
recognition
by
enzymes
compared
with
standard
peptide
bonds.
Their
study
informs
understanding
of
antioxidant
pathways,
detoxification
processes,
and
amino
acid
transport
mechanisms.
with
alpha-linked
peptides,
gamma-linkages
have
established
significance
in
specific
biological
contexts
and
biochemical
pathways.