Formation and geminate quenching of singlet oxygen in purple bacterial reaction center.

The phosphorescence of singlet oxygen ((1)X( *)) photosensitized by the carotenoidless reaction center (RC) of Rhodobacter sphaeroides R26.1 has been investigated, using H(2)O and D(2)O as the suspending media. To enhance (under neutral conditions) the triplet quantum yield of the special pair P(870) (P) by the radical pair mechanism, the quinone acceptor Q(A) was removed by means of a chemical treatment. The phosphorescence signal fits the functional form P(0)[exp (-t/tau)-exp(-t/zeta)], regardless of whether (1)X( *) is sensitized by P(dagger) or M(dagger) (where the dagger denotes triplet excitation and M is a water-soluble molecule). The time constant zeta was identified with the decay time of (1)X( *); when P(dagger) is the sensitizer, one finds zeta(P)((1))=3.3+/-0.3 micros, and zeta(P)((2))=34+/-3 micros, where the superscripts 1 and 2 refer to H(2)O and D(2)O, respectively; the corresponding values for sensitization by M(dagger) (in the absence of RC) are zeta(M)((1))=3.7+/-0.4 micros, and zeta(M)((2))=75+/-5 micros. The addition of RC's to the solution of M in D(2)O reveals that the RC is a quencher of (1)X( *); however, for equal concentrations of the RC, zeta(P)((2))