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proteinpolyphenol

Proteinpolyphenol refers to complexes or conjugates formed between proteins and polyphenolic compounds. These interactions can be non-covalent, such as hydrogen bonding, hydrophobic interactions, and electrostatic attractions, or covalent, resulting from oxidation of polyphenols to o-quinones that react with amino groups or thiol groups on proteins. Proteinpolyphenol associations are common in foods and biological systems where polyphenol-rich plant materials meet protein matrices.

In food systems, polyphenols such as tannins, catechins, and gallic acid interact with milk, soy, or cereal

Effects on properties and functions include altered digestibility, as binding can mask protease access, and potential

Measurement and applications: Researchers study these interactions with UV-Vis spectroscopy, fluorescence, isothermal titration calorimetry, mass spectrometry,

proteins,
as
well
as
with
tea
polyphenols.
Factors
like
pH,
temperature,
metal
ions,
and
oxygen
influence
the
extent
and
type
of
binding.
Covalent
conjugates
can
form
under
oxidative
conditions
and
may
be
relatively
stable
to
processing,
whereas
non-covalent
complexes
may
be
sensitive
to
ionic
strength
and
pH.
changes
in
allergenicity
and
bioavailability
of
polyphenols.
Binding
can
also
modify
functional
properties,
improving
or
hindering
emulsification,
foaming,
and
clarification.
In
beverages
and
foods,
polyphenol–protein
interactions
can
cause
haze
or
sediment
but
can
also
be
exploited
to
stabilize
emulsions
or
to
deliver
polyphenols
via
protein-based
carriers
in
functional
foods.
FTIR,
and
chromatography.
Applications
span
functional
foods,
nutraceutical
delivery,
and
edible
coatings,
while
challenges
include
heterogeneity,
processing
sensitivity,
and
variable
bioavailability.
The
term
proteinpolyphenol
thus
encompasses
the
spectrum
of
protein–polyphenol
complexes
with
relevance
to
nutrition,
food
quality,
and
health.