Home

peptidefused

Peptidefused is a term used to describe the approach of attaching short peptide sequences to a molecular carrier to impart new functions. The idea is to harness peptide properties—such as cell entry, receptor targeting, or condition-responsive behavior—to enhance the performance of the fused partner. Peptidefused constructs can be generated by genetic fusion, in which the coding sequence for a peptide is joined in frame with the gene for a protein or other cargo and expressed in living cells; or by chemical or enzymatic conjugation, where a peptide is linked post-translationally to the cargo using linkers or ligation enzymes.

Design and construction considerations are central to peptidefused systems. The choice of linker, its length and

Peptide motifs commonly employed include cell-penetrating peptides for intracellular delivery, targeting peptides such as RGD for

flexibility,
and
whether
it
is
cleavable
under
specific
conditions
influence
folding,
stability,
activity,
and
site-specificity
of
the
fusion.
Orientation
and
stoichiometry
can
affect
binding
and
function,
and
potential
immunogenicity
must
be
evaluated
for
therapeutic
or
diagnostic
uses.
Site-specific
fusion
methods,
including
sortase-mediated
ligation
or
recombinant
fusion
at
defined
termini,
help
reduce
heterogeneity
compared
with
random
conjugation.
receptor
engagement,
and
protease-
or
pH-cleavable
linkers
for
controlled
release.
Applications
span
therapeutics,
imaging,
diagnostics,
and
biomaterials,
where
peptidefused
constructs
can
improve
targeting,
uptake,
or
responsiveness.
Challenges
include
manufacturing
complexity,
potential
immunogenicity,
regulatory
considerations,
and
the
need
to
balance
stability
with
controlled
release
and
activity.