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Bacteriochlorophyll spectroscopic properties

Structures and Chemical and Spectroscopic Properties of Major Chlorophylls and Bacteriochlorophylls... [Pg.30]

Tiede, D. M., Prince, R. C., and Dutton, P. L., 1976, EPR and optical spectroscopic properties of the electron carrier intermediate between the reaction center bacteriochlorophylls and the primary acceptor in Chromatium vinosum. Biochim. Biophys. Acta, 449 447fi467. [Pg.674]

Fig. 4. Difference absorption spectrum of photoreduced bacleriopheophytin (B Fig. 4. Difference absorption spectrum of photoreduced bacleriopheophytin (B<D) [AA(BO -Bd))] obtained by photochemicai accumulation. See text for experimental details. Figure source (A) Shuvalov, Klimov, Krakhmaleva, Moskalenko and Krasnovsky (1976) Photoconversion of bacteriopheophytin in reaction centers of Rhodospirillum rubrum and Chromatium minutissimum. DokI Akad Nauk SSSR 227 986 (B) Tiede, Prince and Dutton (1976) EPR and optical spectroscopic properties of the electron carrier intermediate between the reaction center bacteriochlorophylls and the primary acceptor in Chromatium vinosum. Biochim Biophys Acta 449 452 (C) van Grondelle, Romijn and Holmes (1976) Photoreduction of the long-wavelength bacteriopheophytin in reaction centers and chromatophores of the photosynthetic bacterium Chromatium vinosum. FEBS Lett 72 188.
Wiemken V and Bachofen R (1984) Probing the smallest functional unit of the reaction center of Rhodospirillum rubrum G-9 with proteinoses. FEBS Lett 166 155-159 Williams JC, Alden RG, Murchison HA, Peloquin JM, Woodbury NW and Allen IP (1992) Effects of mutations near the bacteriochlorophylls in reaction centers from Rhodobacter sphaeroides. Biochemistry 31 11029-11037 Yeates TO, Komiya H, Chirino A, Rees DC, Allen IP and Feher G (1988) Structure of the reaction center from Rhodobacter sphaeroides R-26 and 2.4.1 Protein-cofactor bacterio-chlorophyll bacteriopheophytin and carotenoid interactions. Proc Natl Acad Sci USA 85 7993-7997 Zinth W, Knapp EW, Fischer SF, Kaiser W, Deisenhofer J and Michel H (1985) Correlation of structural and spectroscopic properties of a photo synthetic reaction center. Chem Phys Lett 119 1 ... [Pg.122]

Clearly the extreme polarization values found for the B820 subunit of LHl imposes severe restriction on the construction of models accounting for the spectroscopic properties of this particle. As we did observe even higher polarization values for free bacteriochlorophyll a in 2% OG (p=0.5), the data presented here strongly suggest that the B820 particle consists of an interacting bacteriochlorophyll dimer. [Pg.1093]

Alden RG, Johnson E, Nagarajan V, Parson WW, Law CJ and Cogdell RJ. Calculations of the spectroscopic properties of the LH2 bacteriochlorophyll-protein antenna complex from Rhodopseudomonas acidophila. J. Phys. ChemB. 1996 101 4667-4680. [Pg.87]

Scherz, A., Parson, W. Oligomers of bacteriochlorophyll and bacteriopheophytin with spectroscopic properties resembling those found in photosynthetic bacteria. Biochim. Biophys. Acta 766, 653-665 (1984)... [Pg.380]

S. Sasaki, M. Omoda and H. Tamiaki, Effects of C8-substituents on spectroscopic and selfaggregation properties of synthetic bacteriochlorophyll-d analogues../. Photochem.Photobiol. A Chem. 162 (2004) 307-315. [Pg.365]

See other pages where Bacteriochlorophyll spectroscopic properties is mentioned: [Pg.29]    [Pg.162]    [Pg.244]    [Pg.1094]    [Pg.166]    [Pg.10]   
See also in sourсe #XX -- [ Pg.299 , Pg.300 ]



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