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photoprotection

Photoprotection refers to the physiological and biochemical strategies that organisms use to limit damage from light, especially ultraviolet radiation and excess photosynthetically active radiation. In photosynthetic organisms such as plants, algae, and cyanobacteria, photoprotection aims to prevent photoinhibition, oxidative stress, and tissue damage while maintaining photosynthetic efficiency.

In plants and algae, the most studied component is non-photochemical quenching, a mechanism that dissipates excess

In animals, photoprotection relies largely on shielding and repair. Melanin production in the skin absorbs ultraviolet

The study of photoprotection informs agriculture, ecology, and medicine by explaining how organisms cope with changing

absorbed
light
as
heat
in
the
light-harvesting
complexes.
The
xanthophyll
cycle
plays
a
central
role,
converting
violaxanthin
to
antheraxanthin
and
zeaxanthin
under
high
light
to
facilitate
energy
dissipation.
Antioxidant
systems,
including
ascorbate,
glutathione,
and
enzymes
such
as
superoxide
dismutase,
catalase,
and
peroxidases,
detoxify
reactive
oxygen
species.
Plants
also
repair
photodamaged
components,
notably
the
D1
protein
of
photosystem
II.
Protective
pigments
such
as
flavonoids
and
anthocyanins
absorb
UV
and
scavenge
reactive
species,
and
leaf
structural
features
and
acclimation
responses
reduce
light
absorption
or
improve
dissipation.
radiation,
reducing
DNA
damage.
DNA
repair
pathways,
particularly
nucleotide
excision
repair,
remove
UV-induced
lesions.
Antioxidant
defenses
help
counteract
photooxidative
stress,
and
prophylactic
measures
such
as
sunscreen
and
protective
clothing
limit
exposure.
light
environments
and
how
to
enhance
crop
resilience
or
human
protection
against
light-induced
damage.