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Triplet energy transfer between bacteriochlorophyll and carotenoids in B850 light-harvesting complexes ofRhodobacter sphaeroides R-26.1 (1994)

Farhoosh, Roya ; Chynwat, Veeradej ; Gebhard, Ronald ; [et al.]

Springer

Photosynthesis research 42 (1994), S. 157-166

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ISSN: 1573-5079

Keywords: bacteriochlorophyll ; carotenoid ; flash absorbance spectroscopy ; light-harvesting complex ; Rhodobacter sphaeroides ; triplet state

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The build-up and decay of bacteriochlorophyll (BChl) and carotenoid triplet states were studied by flash absorption spectroscopy in (a) the B800-850 antenna complex ofRhodobacter (Rb.)sphaeroides wild type strain 2.4.1, (b) theRb. sphaeroides R-26.1 B850 light-harvesting complex incorporated with spheroidene, (c) the B850 complex incorporated with 3,4-dihydrospheroidene, (d) the B850 complex incorporated with 3,4,5,6-tetrahydrospheroidene and (e) theRb. sphaeroides R-26.1 B850 complex lacking carotenoids. Steady state absorption and circular dichroism spectroscopy were used to evaluate the structural integrity of the complexes. The transient data were fit according to either single or double exponential rate expressions. The triplet lifetimes of the carotenoids were observed to be 7.0±0.1 μs for the B800-850 complex, 14±2 μs for the B850 complex incorporated with spheroidene, and 19±2 μs for the B850 complex incorporated with 3,4-dihydrospheroidene. The BChl triplet lifetime in the B850 complex was 80±5 μs. No quenching of BChl triplet states was seen in the B850 complex incorporated with 3,4,5,6-tetrahydrospheroidene. For the B850 complex incorporated with spheroidene and with 3,4-dihydrospheroidene, the percentage of BChl quenched by carotenoids was found to be related to the percentage of carotenoid incorporation. The triplet energy transfer efficiencies are compared to the values for singlet energy transfer measured previously (Frank et al. (1993) Photochem. Photobiol. 57: 49–55) on the same samples. These studies provide a systematic approach to exploring the effects of state energies and lifetimes on energy transfer between BChls and carotenoids in vivo.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02187126

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The spectroscopic and photochemical properties of locked-15,15′-cis-spheroidene in solution and incorporated into the reaction center of Rhodobacter sphaeroides R-26.1 (1998)

Bautista, James A. ; Chynwat, Veeradej ; Cua, Agnes ; [et al.]

Springer

Photosynthesis research 55 (1998), S. 49-65

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ISSN: 1573-5079

Keywords: carotenoid ; electron spin resonance ; energy transfer ; geometric isomerization ; optical spectroscopy ; photoprotection ; triplet state

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The spectroscopic and photochemical properties of the synthetic carotenoid, locked-15,15′-cis-spheroidene, were studied by absorption, fluorescence, circular dichroism, fast transient absorption and electron spin resonance spectroscopies in solution and after incorporation into the reaction center of Rhodobacter (Rb.) sphaeroides R-26.1. HPLC purification of the synthetic molecule reveals the presence of several di-cis geometric isomers in addition to the mono-cis isomer of locked-15,15′-cis-spheroidene. In solution, the absorption spectrum of the purified mono-cis sample was red-shifted and showed a large cis-peak at 351 nm compared to unlocked all-trans spheroidene. Molecular modeling and semi-empirical calculations reveal how geometric isomerization and structural factors affect the room temperature spectra. The spectroscopic studies of the purified locked-15,15′-mono-cis molecule in solution reveal a more stable manifold of excited states compared to the unlocked spheroidene. Reaction centers of Rb. sphaeroides R-26.1 in which the locked-15,15′-cis-spheroidene was incorporated show no difference in either the spectroscopic properties or photochemistry compared to reaction centers in which unlocked spheroidene was incorporated or to Rb. sphaeroides wild type strain 2.4.1 reaction centers which naturally contain spheroidene. The data suggest that the natural selection of a cis-isomer of spheroidene for incorporation into native reaction centers of Rb. sphaeroides wild type strain 2.4.1 is more determined by the structure or assembly of the reaction center protein than by any special quality of the cis-isomer of the carotenoid that would affect its ability to participate in triplet energy transfer or carry out photoprotection.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005955425420

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