Fluorescence detected magnetic resonance (FDMR) of green sulfur photosynthetic bacteria Chlorobium sp.

Angerhofer A, VonSchütz JU and Wolf HC (1984) Fluorescence-ODMR of reaction centers of Rhodopseudomonas viridis. Z Naturforsch 39c: 1085?1090

Aust V, Angerhofer A, Ullrich J, VonSchütz JU, Wolf HC and Codgell RJ (1991) ADMR of carotenoid triplet states in bacterial photosynthetic antenna and reaction center complexes. Chem Phys Lett 181: 213?221

Blankenship RE, Cheng P, Causgrove PT, Brune DC, Wang SH, Chon J and Wang J (1993) Redox regulation of energy transfer efficiency in antennas of green photosynthetic bacteria. Photochem Photobiol 37: 103?107

Brune DC, Nozawa T and Blankenship RE (1987) Antenna organization in green photosynthetic bacteria. 1. Oligomeric bacteriochlorophyll c as a model for the 740 nm absorbing bacteriochlorophyll c in Chloroflexus aurantiacus chlorosomes. Biochem 26: 8644?8652

Carbonera D, Giacometti G, Agostini G, Angerhofer A and Aust V (1992) ODMR of carotenoid and chlorophyll triplets in CP43 and CP47 complexes of spinach. Chem Phys Lett 194: 275?281

Frank HA (1992) Electron paramagnetic resonance studies of carotenoids. In: Packer L (ed) Methods in Enzymology, Vol 213, pp 305?312. Academic Press, San Diego

Frick J, VonSchütz JU, Wolf HC and Kothe G (1990) First detection of the (non-phosphorescent) triplet state in single crystals of ?-carotene. Mol Cryst Liq Cryst 183: 269?272

Gerola PD and Olson JM (1986) A new bacteriochlorophyll ?-protein complex associated with the chlorosomes of green sulfur bacteria. Biochim Biophys Acta 848: 69?70

Gerola PD, Højrup P, Kundsen J, Roepstorff P and Olson JM (1988) The bacteriochlorophyll c-binding protein from chlorosomes of Chlorobium limicola f. thiosulfatophilum. In: Olson JM (ed) Green Photosynthetic Bacteria, pp 43?53. Plenum Press, New York

Gorlenko VM (1988) Ecological niches of green sulfur bacteria. In: Olson JM (ed) Green Photosynthetic Bacteria, pp 257?267. Plenum Press, New York

Griebenow K and Holzwarth AR (1989) Pigment organization and energy transfer in green bacteria. 1. Isolation of native chlorosomes free of bound bacteriochlorophyll a from Chloroflexus aurantiacus by gel-electrophoretic filtration. Biochim Biophys Acta 973: 235?240

Hála J, Searle GFW, Schaafsma TJ, VanHoek A, Pancoska P, Blaha K and Vacek K (1986) Picosecond laser spectroscopy and optically detected magnetic resonance studies on a model photosynthetic system. Photochem Photobiol 44: 527?534

Hoff AJ (1986) Optically detected magnetic resonance (ODMR) of triplet states in vivo. In: Staehelin LA and Arntzen CJ (eds) Photosynthesis III (Encyclopedia of Plant Physiology), pp 400?421. Springer-Verlag, Berlin

Kramer HJM, Kingma H, Swarthoff T and Amesz J (1982) Prompt and delayed fluorescence in pigment-protein complexes of a green photosynthetic bacterium. Biochim Biophys Acta 681: 359?364

Matsuura K and Olson JM (1990) Reversible conversion of aggregated bacteriochlorophyll c to the monomeric form by 1-hexanol in chlorosomes from Chlorobium and Chloroflexus. Biochim Biophys Acta 1019: 233?238

Nitschke W, Feiler U and Rutherford AW (1990) Photosynthetic reaction centers of green sulfur bacteria studied by EPR. Biochemistry 29: 3834?3842

Olson JM (1980) Chlorophyll organization in green photosynthetic bacteria. Biochim Biophys Acta 594: 33?51

Olson JM and Pedersen JP (1988) Bacteriochlorophyll c aggregates in carbon tetrachloride as models for chlorophyll organization in green photosynthetic bacteria. In: Scheer H and Schneider S (eds) Photosynthetic Light-Harvesting Systems, pp 365?373. Walter de Gruyter, Berlin

Ormerod JG (1992) Physiology of the photosynthetic prokaryotes. In: Mann NH and Noel GC (eds) Photosynthetic Prokaryotes, pp 93?120. Plenum Press, New York

Otte SCM, Van DerHeiden JC, Pfennig N and Amesz J (1991) A comparitive study of the optical characteristics of intact cells of photosynthetic green sulfur bacteria containing bacteriochlorophyll c, d or e. Photosynth Res 28: 77?87

Ros M and Groenen EJJ (1991) An electron-spin-echo study of the non-radiative triplet state of polyenals. J Chem Phys 94: 7640?7648

Schmidt K (1978) Biosynthesis of carotenoids. In: Clayton RK and Sistrom WR (eds) The Photosynthetic Bacteria, pp 729?750. Plenum Press, New York

Searle GFW and Schaafsma TJ (1992) Fluorescence detected magnetic resonance of the primary donor and inner core antenna chlorophyll in Photosystem I reaction centre protein: Sign inversion and energy transfer. Photosynth Res 32: 193?206

Searle GFW, VanHoek A and Schaafsma TJ (1983) Picosecond laser spectroscopy and magnetic resonance studies on isolated chlorophyll-proteins. In: Doust TAM and West MA (eds) Picosecond Chemistry and Biology, pp 35?67. Science Reviews Ltd, Northwood, Middlesex, England

Thurnauer MC and Norris JR (1977) The ordering of the zero field triplet spin sublevels in the chlorophylls. A magnetophotoselection study. Chem Phys Lett 47: 100?105

Uehara K and Olson JM (1992) Aggregation of bacteriochlorophyll c homologs to dimers, tetramers and polymers in water-saturated carbon tetrachloride. Photosynth Res 33: 251?257

Van DerVos R, Carbonera D and Hoff AJ (1991) Microwave and optical spectroscopy of carotenoid triplets in light-harvesting complex LHCII of spinach. Appl Mag Res 2: 179?202

VanDorp WG, Schaafsma TJ, Soma M and Van DerWaals JH (1973) Investigation of the lowest triplet state of free base porphin by microwave induced changes in its fluorescence. Chem Phys Lett 21: 221?225

VanDorssen RJ, Gerola PD, Olson JM and Amesz J (1986) Optical and structural properties of chlorosomes of the photosynthetic green sulfur bacterium Chlorobium limicola. Biochim Biophys Acta 848: 77?82

Vasmel H, DenBlanken HJ, Dijkman JT, Hoff AJ and Amesz J (1984) Triplet-minus-singlet absorbance difference spectra of reaction centers and antenna pigments of the green photosynthetic bacterium Prosthecochloris aestuarii. Biochim Biophys Acta 767: 200?208

Wang J, Brune DC and Blankenship RE (1990) Effects of oxidants and reductants on the efficiency of excitation transfer in green photosynthetic bacteria. Biochim Biophys Acta 1015: 457?463

Zuber H and Brunisholz RA (1991) Structure and function of antenna polypeptides and chlorophyll-protein complexes: principles and variability. In: Scheer H (ed) Chlorophylls, pp 627?703. CRC, Boca Raton, USA