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dehydrobutyrine

Dehydrobutyrine, abbreviated Dhb, is a non-proteinogenic amino acid that appears as an α,β-unsaturated residue in certain ribosomally synthesized and post-translationally modified peptides (RiPPs), most notably lantibiotics. It arises by dehydration of threonine residues in a precursor peptide during maturation, yielding an α,β-unsaturated amino acid.

Chemically, Dhb is the dehydrated form of threonine and is an α,β-unsaturated amino acid, with a carbon–carbon

In lantibiotics and related lanthipeptides, Dhb residues commonly participate in intramolecular crosslinking with cysteine thiols to

Biosynthesis involves dedicated dehydration enzymes, typically LanB or LanM, which convert Ser and Thr residues to

Dhb is primarily of biological interest as a structural and reactive feature of lantibiotics, illustrating how

double
bond
between
the
alpha
and
beta
carbons
of
the
residue.
The
double
bond
introduces
electrophilic
character
that
can
influence
the
conformation
and
reactivity
of
the
peptide.
In
many
lantibiotics,
the
presence
of
Dhb
(along
with
dehydroalanine
residues)
is
a
hallmark
of
the
maturation
process.
form
thioether
bridges,
such
as
lanthionine
and
methyllanthionine
rings.
These
crosslinks
stabilize
compact,
rigid
structures
that
contribute
to
the
antimicrobial
activity
and
thermal
stability
of
the
mature
peptide.
Dha
and
Dhb,
respectively.
The
modified
residues
are
then
subjected
to
cyclization
by
LanC
to
install
the
characteristic
thioether
rings.
The
distribution
and
pattern
of
Dhb
and
related
residues
influence
the
spectrum
of
activity
and
the
three-dimensional
architecture
of
the
final
lantibiotic.
post-translational
modification
expands
the
chemical
repertoire
of
natural
peptides.