| 11. | These crystal structures provided vital background on chromophore formation and neighboring residue interactions.
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| 12. | In polymers, these areas are known as chromophores.
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| 13. | Energy diagram illustrating the Franck� Condon principle applied to the solvation of chromophores.
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| 14. | When a photon strikes the chromophore, it changes shape ( isomerizes ).
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| 15. | In phototransduction, a photon interacts with a chromophore in a light receptor.
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| 16. | The parabolic potential curves symbolize the interaction energy between the chromophores and the solvent.
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| 17. | The proteins use a flavin as a chromophore.
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| 18. | The chromophore absorbs the photon and undergoes photoisomerization.
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| 19. | An oxidizing bleach works by breaking the chemical bonds that make up the chromophore.
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| 20. | A reducing bleach works by converting double bonds in the chromophore into single bonds.
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