FEMTOSECOND ENERGY-TRANSFER DYNAMICS BETWEEN BACTERIOCHLOROPHYLLS IN THE B800-820 ANTENNA COMPLEX OF THE PHOTOSYNTHETIC PURPLE BACTERIUM RHODOPSEUDOMONAS-ACIDOPHILA (STRAIN-7750)
Yz. Ma et al., FEMTOSECOND ENERGY-TRANSFER DYNAMICS BETWEEN BACTERIOCHLOROPHYLLS IN THE B800-820 ANTENNA COMPLEX OF THE PHOTOSYNTHETIC PURPLE BACTERIUM RHODOPSEUDOMONAS-ACIDOPHILA (STRAIN-7750), JOURNAL OF PHYSICAL CHEMISTRY B, 102(5), 1998, pp. 881-887
Femtosecond one-color pump-probe measurements were performed on the B8
00-820 light-harvesting antenna complex of Rhodopseudomonas acidophila
, strain 7750, at room and low temperature (mainly 77 K). The isotropi
c and anisotropic decays obtained within the B800 band are clearly wav
elength-and temperature-dependent. A fast isotropic decay component at
room temperature was found to have a lifetime of 0.30 ps at 784 nm, 0
.54 ps at 790 nm, and 0.75 ps at 800 nm. The interband energy-transfer
time was found to be similar to 0.75 ps at room temperature, which sl
ows down to similar to 0.90 ps at 77 K. The time-resolved anisotropy,
obtained around 790 and 800 nm, exhibits a single-exponential decay fe
ature with a depolarization time of similar to 1.1 ps at room temperat
ure and similar to 450 fs at 77 K. Measurements within the B820 band s
howed a fast isotropic component having a lifetime 60-80 fs. The corre
sponding time-resolved anisotropy decay occurs in 100-130 fs at room t
emperature and similar to 240 fs at 77 K. In view of the general simil
arity in the energy-transfer dynamics between the B800-820 complex and
other LH2 antenna, we conclude that the markedly blue-shifted B820 ba
nd has no substantial effect on the interband transfer rate.