Abstract
The kinetics of primary electron transfer in membrane-bound Rhodobacter sphaeroides reaction centers (RCs) were measured on both wild-type (WT) and site-directed mutant RC's bearing mutations at the tyrosine M210 position. The tyrosine was replaced by histidine (H), phenylalanine (F), leucine (L), or tryptophan (W). A mutant with histidine at both the M210 and symmetry-related L181 positions (YM210H/FL181H) was also examined. Rates of primary charge separation were determined by both single and multiple wavelength pump−probe techniques. The time constants for the decay of stimulated emission in the membrane-bound mutant RC's were approximately 27 ps (F), 36 ps (L), 72 ps (W), 5.8 ps (H), and 4.2 ps (HH), compared with 4.6 ps in WT membrane-bound RC's. For all RC's, the decay of stimulated emission was found to be multiexponential, demonstrating that this phenomenon is not a consequence of the removal of the RC from the membrane. The source of the multiexponential decay of the primary donor excited state w...
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