Photoprotection by carotenoids during photosynthesis: Motional dependence of intramolecular energy transfer

Ana Moore; Anna Joy; Roderick Tom; Devens Gust; Thomas Moore; René V. Bensasson; Edward J. Land

doi:10.1126/science.216.4549.982

Photoprotection by carotenoids during photosynthesis: Motional dependence of intramolecular energy transfer

Ana Moore, Anna Joy, Roderick Tom, Devens Gust, Thomas Moore, René V. Bensasson, Edward J. Land

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Abstract

A new carotenoporphyrin has been prepared in which a synthetic carotenoid is joined to a tetraarylporphyrin through a flexible trimethylene linkage. This molecule exists primarily in an extended conformation with the carotenoid chromophore far from the porphyrin π-electron system. In benzene solution, where large-amplitude molecular motions are rapid, the molecule can momentarily assume less stable conformations which favor triplet energy transfer, and quenching of the porphyrin triplet by the carotenoid is fast. In a polystyrene matrix or frozen glass such motions are slow, and energy transfer cannot compete with other pathways for depopulating the triplet state. These observations help establish the requirements for biological photoprotection.

Original language	English (US)
Pages (from-to)	982-984
Number of pages	3
Journal	Science
Volume	216
Issue number	4549
DOIs	https://doi.org/10.1126/science.216.4549.982
State	Published - 1982

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abstract = "A new carotenoporphyrin has been prepared in which a synthetic carotenoid is joined to a tetraarylporphyrin through a flexible trimethylene linkage. This molecule exists primarily in an extended conformation with the carotenoid chromophore far from the porphyrin π-electron system. In benzene solution, where large-amplitude molecular motions are rapid, the molecule can momentarily assume less stable conformations which favor triplet energy transfer, and quenching of the porphyrin triplet by the carotenoid is fast. In a polystyrene matrix or frozen glass such motions are slow, and energy transfer cannot compete with other pathways for depopulating the triplet state. These observations help establish the requirements for biological photoprotection.",

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T1 - Photoprotection by carotenoids during photosynthesis

T2 - Motional dependence of intramolecular energy transfer

AU - Moore, Ana

AU - Joy, Anna

AU - Tom, Roderick

AU - Gust, Devens

AU - Moore, Thomas

AU - Bensasson, René V.

AU - Land, Edward J.

PY - 1982

Y1 - 1982

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AB - A new carotenoporphyrin has been prepared in which a synthetic carotenoid is joined to a tetraarylporphyrin through a flexible trimethylene linkage. This molecule exists primarily in an extended conformation with the carotenoid chromophore far from the porphyrin π-electron system. In benzene solution, where large-amplitude molecular motions are rapid, the molecule can momentarily assume less stable conformations which favor triplet energy transfer, and quenching of the porphyrin triplet by the carotenoid is fast. In a polystyrene matrix or frozen glass such motions are slow, and energy transfer cannot compete with other pathways for depopulating the triplet state. These observations help establish the requirements for biological photoprotection.

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Photoprotection by carotenoids during photosynthesis: Motional dependence of intramolecular energy transfer

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