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hydroxyalkanoate

Hydroxyalkanoate generally refers to hydroxy-substituted alkanoate units that form the monomers of the biopolymer family known as polyhydroxyalkanoates (PHAs). The most common monomer class is 3-hydroxyalkanoates, which have the structure HO−CH(R)−CH2−COO−, where R denotes an alkyl side chain. When these units polymerize via ester linkages, they produce PHAs, including polyhydroxybutyrate (PHB) and copolymers such as poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV). The nature of the R group influences crystallinity, stiffness, and melting behavior of the resulting polymer.

In biology, hydroxyalkanoates are produced by many bacteria as intracellular carbon and energy reserves. Under nutrient

Applications and production: PHAs and their hydroxyalkanoate monomers are studied as biodegradable, biocompatible plastics for packaging,

limitation
(for
example,
nitrogen
or
phosphorus)
with
excess
carbon,
cells
channel
carbon
flux
into
hydroxyalkanoate
monomers
and
polymerize
them
using
the
PHA
synthase
enzyme
(PhaC).
The
polymer
is
stored
in
intracellular
granules
and
can
be
mobilized
by
depolymerases
(PhaZ)
when
needed.
The
diversity
of
hydroxyalkanoate
side
chains
allows
PHAs
to
exhibit
a
wide
range
of
material
properties,
from
rigid
thermoplastics
to
flexible
elastomers.
agricultural
films,
and
medical
devices.
Industrial
production
employs
bacteria
such
as
Cupriavidus
necator
and
engineered
strains,
using
renewable
feedstocks.
Despite
environmental
advantages,
production
costs
and
processing
challenges
limit
widespread
adoption.
Ongoing
research
seeks
to
improve
yields,
tailor
monomer
composition,
and
enable
cheaper
synthesis
from
waste
streams
or
nonfood
carbon
sources.