Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair
Multichannel flash spectroscopy (with microsecond time resolution) has been applied to carotenoid (Car)-containing and Car-less reaction centers (RC) of Rhodobacter sphaeroides with a view to investigate the interaction between the Car and its neighboring pigments at room temperature. Under neutral redox potential conditions, where the primary quinone acceptor (QA) is oxidized, the light-induced spectral changes in the 350-1000 nm region are attributed to the photochemical oxidation of the special pair (denoted here as P870), the generation of P870(+)QA(-), and the attendant electrochromism of adjacent chromophores. A bathochromic shift of <1 nm in the visible absorption region of Car reveals the sensitivity of Car to the P870 photooxidation. Under low redox potential conditions, where QA is reduced, P870 triplets (P870(+)) are formed. The time-resolved triplet-minus-singlet (TmS) spectrum of Car-less RC shows a deep bleaching at 870 nm, which belongs to P870(+), and additional (but smaller) bleaching at 800 nm; the entire spectrum decays at the same rate (with a lifetime of about 50 micros). The bleaching at 800 nm arises from the pigment interaction between P870(+) and the accessory bacteriochlorophylls on A and B branches (BA,B). In Car-containing RC, the TmS spectra of Car are accompanied by two smaller, negative signals--a sharp peak at 809 +/- 2 nm and a broad band at 870 nm--which decay at the same rate as the TmS spectrum of Car (ca 10 micros). The former is ascribed to the perturbation, by Car(+), of the absorption spectrum of BB; the latter, to the TmS spectrum of P870(+), a species that appears to be in approximate thermal equilibrium with Car(+). These assignments are consistent with the absorption-detected magnetic resonance spectra obtained by other workers at low temperatures.
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American Society for Photobiology
2004-01
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| Subjects: | Reaction center, Rhodobacter sphaeroides, Carotenoids, Bacteriochlorophyll, Triplet energy transfer, P870, |
| Online Access: | http://hdl.handle.net/10261/3628 |
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dig-irnasa-es-10261-36282016-05-24T10:05:53Z Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair Arellano, Juan B. Melo, Thor Bernt Fyfe, Paul K. Cogdell, Richard J. Naqvi, K. Razi Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 Multichannel flash spectroscopy (with microsecond time resolution) has been applied to carotenoid (Car)-containing and Car-less reaction centers (RC) of Rhodobacter sphaeroides with a view to investigate the interaction between the Car and its neighboring pigments at room temperature. Under neutral redox potential conditions, where the primary quinone acceptor (QA) is oxidized, the light-induced spectral changes in the 350-1000 nm region are attributed to the photochemical oxidation of the special pair (denoted here as P870), the generation of P870(+)QA(-), and the attendant electrochromism of adjacent chromophores. A bathochromic shift of <1 nm in the visible absorption region of Car reveals the sensitivity of Car to the P870 photooxidation. Under low redox potential conditions, where QA is reduced, P870 triplets (P870(+)) are formed. The time-resolved triplet-minus-singlet (TmS) spectrum of Car-less RC shows a deep bleaching at 870 nm, which belongs to P870(+), and additional (but smaller) bleaching at 800 nm; the entire spectrum decays at the same rate (with a lifetime of about 50 micros). The bleaching at 800 nm arises from the pigment interaction between P870(+) and the accessory bacteriochlorophylls on A and B branches (BA,B). In Car-containing RC, the TmS spectra of Car are accompanied by two smaller, negative signals--a sharp peak at 809 +/- 2 nm and a broad band at 870 nm--which decay at the same rate as the TmS spectrum of Car (ca 10 micros). The former is ascribed to the perturbation, by Car(+), of the absorption spectrum of BB; the latter, to the TmS spectrum of P870(+), a species that appears to be in approximate thermal equilibrium with Car(+). These assignments are consistent with the absorption-detected magnetic resonance spectra obtained by other workers at low temperatures. RJC thanks the Biotechnology and Biological Sciences Research Council for financial support. JBA is very grateful to the European Science Foundation and the Spanish Ministry of Science and Technology for awarding him a travel grant for his visit to Trondheim and Glasgow. Support from the Research Council of Norway (NFR) is also gratefully acknowledged. Peer reviewed 2008-04-16T14:53:07Z 2008-04-16T14:53:07Z 2004-01 artículo http://purl.org/coar/resource_type/c_6501 Photochemistry and Photobiology (2004) 79(1):68-75 http://hdl.handle.net/10261/3628 10.1043/0031-8655(2004)79(68:MFSOTR)2.0.CO;2 en http://www.bioone.org/doi/abs/10.1562/0031-8655%282004%2979%3C68%3AMFSOTR%3E2.0.CO%3B2 open 492290 bytes application/pdf American Society for Photobiology |
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Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 |
| spellingShingle |
Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 Arellano, Juan B. Melo, Thor Bernt Fyfe, Paul K. Cogdell, Richard J. Naqvi, K. Razi Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| description |
Multichannel flash spectroscopy (with microsecond time resolution) has been applied to carotenoid (Car)-containing and Car-less reaction centers (RC) of Rhodobacter sphaeroides with a view to investigate the interaction between the Car and its neighboring pigments at room temperature. Under neutral redox potential conditions, where the primary quinone acceptor (QA) is oxidized, the light-induced spectral changes in the 350-1000 nm region are attributed to the photochemical oxidation of the special pair (denoted here as P870), the generation of P870(+)QA(-), and the attendant electrochromism of adjacent chromophores. A bathochromic shift of <1 nm in the visible absorption region of Car reveals the sensitivity of Car to the P870 photooxidation. Under low redox potential conditions, where QA is reduced, P870 triplets (P870(+)) are formed. The time-resolved triplet-minus-singlet (TmS) spectrum of Car-less RC shows a deep bleaching at 870 nm, which belongs to P870(+), and additional (but smaller) bleaching at 800 nm; the entire spectrum decays at the same rate (with a lifetime of about 50 micros). The bleaching at 800 nm arises from the pigment interaction between P870(+) and the accessory bacteriochlorophylls on A and B branches (BA,B). In Car-containing RC, the TmS spectra of Car are accompanied by two smaller, negative signals--a sharp peak at 809 +/- 2 nm and a broad band at 870 nm--which decay at the same rate as the TmS spectrum of Car (ca 10 micros). The former is ascribed to the perturbation, by Car(+), of the absorption spectrum of BB; the latter, to the TmS spectrum of P870(+), a species that appears to be in approximate thermal equilibrium with Car(+). These assignments are consistent with the absorption-detected magnetic resonance spectra obtained by other workers at low temperatures. |
| format |
artículo |
| topic_facet |
Reaction center Rhodobacter sphaeroides Carotenoids Bacteriochlorophyll Triplet energy transfer P870 |
| author |
Arellano, Juan B. Melo, Thor Bernt Fyfe, Paul K. Cogdell, Richard J. Naqvi, K. Razi |
| author_facet |
Arellano, Juan B. Melo, Thor Bernt Fyfe, Paul K. Cogdell, Richard J. Naqvi, K. Razi |
| author_sort |
Arellano, Juan B. |
| title |
Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| title_short |
Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| title_full |
Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| title_fullStr |
Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| title_full_unstemmed |
Multichannel Flash Spectroscopy of the Reaction Centers of Wild-type and Mutant Rhodobacter Sphaeroides: BacteriochlorophyllB-mediated Interaction Between the Carotenoid Triplet and the Special Pair |
| title_sort |
multichannel flash spectroscopy of the reaction centers of wild-type and mutant rhodobacter sphaeroides: bacteriochlorophyllb-mediated interaction between the carotenoid triplet and the special pair |
| publisher |
American Society for Photobiology |
| publishDate |
2004-01 |
| url |
http://hdl.handle.net/10261/3628 |
| work_keys_str_mv |
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| _version_ |
1777665189570674688 |