Abstract
Time-resolved absorption measurements of the formation and decay kinetics of the M (deprotonated) photocycle intermediate of bR purple membranes entrapped within a dried xerogel glass have been investigated. The dramatic change observed for the M state decay time is in contrast to the relatively insensitive half life reported for the M intermediate of the D96N mutant entrapped within a dried sol–gel glass. The decay kinetics of the M intermediate was observed to slow by a factor of almost 100 when the solvent was removed from the wet-gel to form the dry xerogel glass. Very long aging times for wet-gels resulted in highly biexponential M state decay kinetics. Upon drying, the M state formation rate initially decreased relative to that in solution before increasing in the dry xerogel to a formation rate nearly three times faster than in solution.
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