Home

polyketidepeptides

Polyketidepeptides are natural products that combine elements derived from polyketide biosynthesis with peptide-like structures. They are produced by a range of organisms, notably fungi and bacteria, and arise from hybrid biosynthetic pathways that recruit both polyketide synthases (PKS) and nonribosomal peptide synthetases (NRPS). The resulting molecules often feature complex, macrocyclic or linear architectures and exhibit diverse biological activities.

Structural features commonly include depsipeptide linkages, where hydroxy acids supplied by PKS modules are incorporated into

Well-known examples include enniatins and beauvericin, cyclic hexadepsipeptides produced by Fusarium species. These compounds are characterized

Research on polyketidepeptides focuses on understanding their gene clusters, improving heterologous production, and exploring structure–activity relationships.

peptide
backbones
via
ester
bonds
in
addition
to
amide
bonds.
The
products
may
be
cyclic
or
open-chain,
and
the
size
and
composition
vary
with
the
module
organization
of
the
PKS-NRPS
assembly
lines.
This
modular
biosynthesis
allows
incorporation
of
unusual
amino
acids
and
hydroxy
acid
units,
generating
considerable
chemical
diversity.
by
ionophoric
properties
and
cytotoxic
effects,
and
they
serve
as
tools
for
studying
PKS-NRPS
biology
as
well
as
potential
leads
in
pharmacology.
Other
polyketidepeptides
include
a
range
of
cyclic/depsipeptide
hybrids
with
antimicrobial,
antifungal,
or
anticancer
activities
reported
in
fungal
and
bacterial
producers.
Advances
in
genome
mining
and
synthetic
biology
aim
to
unlock
new
hybrids
with
therapeutic
potential,
while
addressing
challenges
such
as
complex
structures,
supply,
and
safety
considerations.