R. Schodel et al., Quenching of chlorophyll fluorescence by triplets in solubilized light-harvesting complex II (LHCII), BIOPHYS J, 76(4), 1999, pp. 2238-2248
The quenching of chlorophyll fluorescence by triplets in solubilized trimer
ic light harvesting complexes was analyzed by comparative pump-probe experi
ments that monitor with weak 2-ns probe pulses the fluorescence yield and c
hanges of optical density, Delta OD, induced by 2-ns pump pulses. By using
a special array for the measurement of the probe fluorescence (Schodel R.,
F, Hillman, T. Schrotter, K.-D. Irrgang, J. Voight, and G. Renger, 1996. Bi
ophys. J. 71:3370-3380) the emission caused by the pump pulses could be dra
stically reduced so that even at highest pump pulse intensities, I-P, no si
gnificant interference with the signal due to the probe pulse was observed.
The data obtained reveal: a) at a fixed time delay of 50 ns between pump a
nd probe pulse the fluorescence yield of the latter drastically decreased w
ith increasing I-P, b) the recovery of the fluorescence yield in the mu s t
ime domain exhibits kinetics which are dependent on I-P, c) Delta OD at 507
nm induced by the pump pulse and monitored by the probe pulse with a delay
of 50 ns (reflecting carotenoid triplets) increases with I-P without reach
ing a saturation level, at highest I-P values, d) an analogous feature is o
bserved for the bleaching at 675 nm but it becomes significant only at very
high I-P values, e) the relaxation of Delta OD at 507 nm occurs via a mono
phasic kinetics at all I-P values whereas Delta OD at 675 nm measured under
the same conditions is characterized by a biphasic kinetics with tau value
s of about 1 mu s and 7-9 mu s. The latter corresponds with the monoexponen
tial decay kinetics of Delta OD at 507 nm. Based on a Stern-Volmer plot, th
e time-dependent fluorescence quenching is compared with the relaxation kin
etics of triplets. it is shown that the fluorescence data can be consistent
ly described by a quenching due to triplets.