Reminiscence about‘Chloropseudomonas ethylicum’ and the FMO-protein John M. Olson Group 1: Reflections Pages: 3 - 5
Nomenclature of the bacteriochlorophyllsc,d, ande Kevin M. Smith Group 2: Nomenclature Pages: 23 - 26
Gene nomenclature recommendations for green photosynthetic bacteria and heliobacteria Donald A. Bryant Group 2: Nomenclature Pages: 27 - 28
Oscillochloris trichoides neotype strain DG-6 Olga I. KeppenOlga I. BaulinaElena N. Kondratieva Group 3: New Organisms, Ecology and Biochemistry Pages: 29 - 33
Chloroflexus-like organisms from marine and hypersaline environments: Distribution and diversity Beverly K. PiersonDiane ValdezE. Erin Mack Group 3: New Organisms, Ecology and Biochemistry Pages: 35 - 52
Effects of light quality on the physiology and the ecology of planktonic green sulfur bacteria in lakes X. VilaC. A. Abella Group 3: New Organisms, Ecology and Biochemistry Pages: 53 - 65
Lipids of heliobacteria are characterised by a high proportion of monoenoic fatty acids with variable double bond positions Brit AaseErik JantzenJohn Ormerod Group 3: New Organisms, Ecology and Biochemistry Pages: 67 - 74
An enzyme and13C-NMR study of carbon metabolism in heliobacteria Mark W. PickettMichael P. WilliamsonDavid J. Kelly Group 3: New Organisms, Ecology and Biochemistry Pages: 75 - 88
Redox effects on the bacteriochlorophyll α-containing Fenna-Matthews-Olson protein fromChlorobium tepidum Wenli ZhouRussell LoBruttoRobert E. Blankenship Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 89 - 96
Low-temperature spectroscopy of isolated FMO-protein and a membrane-free reaction center complex from the green sulfur bacteriumChlorobium tepidum Mette MillerRaymond P. CoxJohn M. Olson Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 97 - 103
Iron-sulfur centers in the photosynthetic reaction center complex fromChlorobium vibrioforme. Differences from and similarities to the iron-sulfur centers in Photosystem I Bodil KjærYean-Sung JungHenrik Vibe Scheller Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 105 - 114
Spectroscopic evidence for the presence of an iron-sulfur center similar to Fx of Photosystem I inHeliobacillus mobilis Frank A. M. KleinherenbrinkHung-Cheng ChiouRobert E. Blankenship Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 115 - 123
Photo-oxidation of membrane-bound and soluble cytochromec in the green sulfur bacteriumChlorobium tepidum Nobuyoshi OkumuraKeizo ShimadaKatsumi Matsuura Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 125 - 134
Photosynthetic electrogenic events in native membranes ofChloroflexus aurantiacus. Flash-induced charge displacements within the reaction center-cytochromec 554 complex Armen MulkidjanianGiovanni VenturoliLel Drachev Group 4: FMO-Protein, Reaction Centers and Electron Transport Pages: 135 - 143
Bacteriochlorophyllc formation and chlorosome development inChloroflexus aurantiacus Markus FoidlJochen R. GoleckiJürgen Oelze Group 5: Chlorosomes and Pigments Pages: 145 - 150
Effects of illumination intensity on bacteriochlorophyllc homolog distribution inChloroflexus aurantiacus grown under controlled conditions Kim Lambertsen LarsenRaymond P. CoxMette Miller Group 5: Chlorosomes and Pigments Pages: 151 - 156
Separation of bacteriochlorophyll homologues from green photosynthetic sulfur bacteria by reversed-phase HPLC C. M. BorregoL. J. Garcia-Gil Group 5: Chlorosomes and Pigments Pages: 157 - 164
Giant circular dichroism of chlorosomes fromChloroflexus aurantiacus treated with 1-hexanol and proteolytic enzymes Rainer P. LehmannRené A. BrunisholzHerbert Zuber Group 5: Chlorosomes and Pigments Pages: 165 - 173
Pigment interactions in chlorosomes of various green bacteria Ute FeilerDelphine AlbouyBruno Robert Group 5: Chlorosomes and Pigments Pages: 175 - 180
Molecular organization of bacteriochlorophyll in chlorosomes of the green photosynthetic bacteriumChloroflexus aurantiacus: Studies of fluorescence depolarization accompanied by energy transfer processes Mamoru MimuroMasamitsu HirotaKatsumi Matsuura Group 5: Chlorosomes and Pigments Pages: 181 - 191
Chlorosomes of green sulfur bacteria: Pigment composition and energy transfer Paula I. van NoortChristof FranckeJan Amesz Group 5: Chlorosomes and Pigments Pages: 193 - 203
Strongly exciton-coupled BChle chromophore system in the chlorosomal antenna of intact cells of the green bacteriumChlorobium phaeovibrioides: A spectral hole burning study Zoya G. FetisovaKoit MauringAlexandra S. Taisova Group 5: Chlorosomes and Pigments Pages: 205 - 210
Structures of chlorosomes and aggregated BChlc inChlorobium tepidum from solid state high resolution CP/MAS13C NMR Tsunenori NozawaKatsunori OhtomoZheng-Yu Wang Group 5: Chlorosomes and Pigments Pages: 211 - 223
On the structure of bacteriochlorophyll molecular aggregates in the chlorosomes of green bacteria. A molecular modelling study Alfred R. HolzwarthKurt Schaffner Group 5: Chlorosomes and Pigments Pages: 225 - 233
The formation and characterization of the in vitro polymeric aggregates of bacteriochlorophyllc homologs fromChlorobium limicola in aqueous suspension in the presence of monogalactosyl diglyceride Kaku UeharaMamoru MimuroJohn M. Olson Group 5: Chlorosomes and Pigments Pages: 235 - 243
Dimerization of synthetic zinc aminochlorins in non-polar organic solvents Hitoshi TamiakiAlfred R. HolzwarthKurt Schaffner Group 5: Chlorosomes and Pigments Pages: 245 - 251
A gene cluster inChlorobium vibrioforme encoding the first enzymes of chlorophyll biosynthesis Patricia Ann MobergYael Julia Avissar Group 6: Genes and Evolution Pages: 253 - 259
Genes encoding two chlorosome components from the green sulfur bacteriaChlorobium vibrioforme strain 8327D andChlorobium tepidum Soohee ChungGerhard FrankDonald A. Bryant Group 6: Genes and Evolution Pages: 261 - 275
Highly efficient integration of foreign DNA into the genome of the green sulfur bacterium,Chlorobium vibrioforme by homologous recombination Søren KjærulffDzung Bao DiepJohn G. Ormerod Group 6: Genes and Evolution Pages: 277 - 283
Evolution of heliobacteria: Implications for photosynthetic reaction center complexes Wim F. J. Vermaas Group 6: Genes and Evolution Pages: 285 - 294