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Selective photoinactivation of protein function through environment-sensitive switching of singlet oxygen generation by photosensitizer.


ABSTRACT: Chromophore-assisted light inactivation is a promising technique to inactivate selected proteins with high spatial and temporal resolution in living cells, but its use has been limited because of the lack of a methodology to prevent nonspecific photodamage in the cell owing to reactive oxygen species generated by the photosensitizer. Here we present a design strategy for photosensitizers with an environment-sensitive off/on switch for singlet oxygen ((1)O(2)) generation, which is switched on by binding to the target, to improve the specificity of protein photoinactivation. (1)O(2) generation in the unbound state is quenched by photoinduced electron transfer, whereas (1)O(2) generation can occur in the hydrophobic environment provided by the target protein, after specific binding. Inositol 1,4,5-trisphosphate receptor, which has been suggested to have a hydrophobic pocket around the ligand binding site, was specifically inactivated by an environment-sensitive photosensitizer-conjugated inositol 1,4,5-trisphosphate receptor ligand without (1)O(2) generation in the cytosol of the target cells, despite light illumination, demonstrating the potential of environment-sensitive photosensitizers to allow high-resolution control of generation of reactive oxygen species in the cell.

SUBMITTER: Yogo T 

PROVIDER: S-EPMC2224201 | biostudies-other | 2008 Jan

REPOSITORIES: biostudies-other

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Selective photoinactivation of protein function through environment-sensitive switching of singlet oxygen generation by photosensitizer.

Yogo Takatoshi T   Urano Yasuteru Y   Mizushima Akiko A   Sunahara Hisato H   Inoue Takanari T   Hirose Kenzo K   Iino Masamitsu M   Kikuchi Kazuya K   Nagano Tetsuo T  

Proceedings of the National Academy of Sciences of the United States of America 20080102 1


Chromophore-assisted light inactivation is a promising technique to inactivate selected proteins with high spatial and temporal resolution in living cells, but its use has been limited because of the lack of a methodology to prevent nonspecific photodamage in the cell owing to reactive oxygen species generated by the photosensitizer. Here we present a design strategy for photosensitizers with an environment-sensitive off/on switch for singlet oxygen ((1)O(2)) generation, which is switched on by  ...[more]

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