Growth and adaptation to phototrophic conditions of Rhodospirillum rubrum and Rhodopseudomonas sphaeroides at different temperatures

The influence of temperature on yields of cell protein and bacteriochlorophyll as well as on the rates of growth and bacteriochlorophyll synthesis was studied with Rhodospirillum rubrum and Rhodopseudomonas sphaeroides. Under chemotrophic conditions net cell-protein production increased in cultures of both species along with temperature from 14°C up to the optimum at 33°C. Under phototrophic conditions cell-protein yields were largely constant within the range from 21°C to 33°C. At temperatures below 21°C and above 33°C yields decreased. These results are interpreted in terms of coupling between energy yielding or redox equivalent providing metabolisms and cell biosynthesis. Upon adaptation from chemotrophic to phototrophic conditions a direct relationship between temperature increase and bacteriochlorophyll level was observed. Arrhenius plots of both, specific growth rates and rates of bacteriochlorophyll synthesis, revealed discontinuities at about 20°C. Temperature coefficients either above or below those discontinuities were similar in both species. In R. rubrum temperature coefficients of the synthesis of total bacteriochlorophyll were also representative of the synthesis of photochemical reaction center and light harvesting bacteriochlorophylls. But in R. sphaeroides significant differences were observed between temperature coefficients of the syntheses of bacteriochlorophylls of the costantly composed reaction centerlight harvesting complex on one hand and of both, total and the quantitatively variable light harvesting bacteriochlorophylls on the other. The results are interpreted in light of hypotheses on the regulation (a) of cellular bacteriochlorophyll levels as well as (b) of the ratio of functionally different bacteriochlorophylls in the photosynthetic apparatus.Abbreviation Bchl bacteriochlorophyll     

Modulation by fumarate of a P i -insensitive pyruvate kinase from Rhodopseudomonas capsulata

Cold lability was found to be responsible for the initial failure to detect pyruvate kinase activity in extracts of the facultative phototroph, Rhodopseudomonas capsulata. Taking advantage of the reversal of cold inactivation by high concentrations of monovalent cations, the enzyme could be partially purified by (NH₄)₂SO₄-precipitation and gelfiltration. In contrast to the enzyme from Rhodospirillum rubrum, the pyruvate kinase from R. capsulata is nearly insensitive to inorganic phosphate. Instead, it is susceptible to allosteric inhibition by fumarate. Adenosinemonophosphate and sugar phosphates as activators prevent the inhibitory action of fumarate.     

A comparison of electron transport and photophosphorylation systems of Rhodopseudomonas capsulata and Rhodospirillum rubrum

The photophosphorylation systems of Rhodopseudomonas capsulata and Rhodospirillum rubrum chromatophores have been compared in respect to the effects of artificial electron carries [N-methyl-phenazonium methosulfate (PMS) and diaminodurene], reducing agents (ascorbate in particular), and various quinones in the absence and presence of the electron transport inhibitors antimycin A and dibromothymoquinone (DBMIB). In addition, the effects of both inhibitors on photosynthetic electron transport through cytochromes b and c has been followed. From the results obtained, it appears that in both organisms: a) ubiquinone functions as an electron carrier between the cytochromes, and b) both antimycin A and DBMIB inhibit cyclic electron flow in the segment ... cytochrome bubiquinone»cytochrome c ..., but at different sites. The systems apparently differ mainly in respect to the nature of the electron flow by-pass shunt that is evoked in the presence of PMS; thus, in R. rubrum, PMS catalyzes a shunt that by-passes both cytochrome b and ubiquinone, whereas in Rps. capsulata the PMS shunt seems to circumvent only ubiquinone.Abbreviations BChl bacteriochlorophyll - DAD diaminodurene=2,3,5,6-tetramethyl-p-phenylenediamine - DBMIB dibromothymoquinone=2,5-dibromo-6-isopropyl-3-methylbenzoquinone - HOQNO heptylhydroxyquinoline-N-oxide - PMS N-methylphenazonium methosulfate     

Specificity of the transhydrogenase factor for chromatophores of Rhodopseudomonas spheroides and Rhodospirillum rubrum

Extensive washing of chromatophores of Rhodospirillum rubrum and Rhodopseudomonas spheroides with dilute buffer results in a complete loss of the energylinked transhydrogenase activities of Rsp. rubrum but only a partial loss of the light-driven reaction in chromatophores of Rps. spheroides. It was not possible to reactivate the Rps. spheroides transhydrogenation with the Rsp. rubrum transhydrogenase factor nor with a protein fraction of Rps. spheroides isolated by procedures identical to that used for the isolation of the Rsp. rubrum transhydrogenase factor. The Rsp. rubrum factor is highly specific and cannot be replaced by a number of sulfhydryl compounds tested for reconstitution of Rsp. rubrum transhydrogenation. A published procedure for the isolation of a “transhydrogenase factor” from Rps. spheroides chromatophores yields a preparation having energy-dependent transhydrogenation when supplemented with dithiothreitol in the absence of added chromatophores.     

Diazotrophic growth of Rhodopseudomonas acidophila and Rhodopseudomonas capsulata under microaerobic conditions in the dark

Diazotrophy of Rhodopseudomonas acidophila and Rhodopseudomonas capsulata was not obligatorily linked to photosynthesis. In the dark R. acidophila grew with dinitrogen as sole nitrogen source at a dissolved oxygen tension of 15 Torr (= 2.0 kPa); the doubling time was 8 h. Acetylene reduction by whole cells was more sensitive to oxygen in the light than in the dark. 16.5 mg N₂ were fixed per g lactic acid consumed. R. capsulata synthesized nitrogenase and fixed dinitrogen in the dark at a dissolved oxygen tension of less than one Torr (= 0.13 kPa). The doubling time of this bacterium was 16 h and 10.5 mg N₂ were fixed per g lactic acid consumed.Abbreviation kPa kilopascal     

Chemoautotrophic growth of Rhodopseudomonas species with hydrogen and chemotrophic utilization of methanol and formate

A chemolithoautotrophic type of metabolism, which was hitherto unknown for purple nonsulfur bacteria, was demonstrated by growth experiments using Rhodopseudomonas capsulata Kb1 and Rhodopseudomonas acidophila 10050. These strains were able to grow in a mineral medium in the dark at the expense of H₂, O₂, and CO₂. A minimum doubling time of 9 h was obtained for R. capsulata under an atmosphere containing less than 15% oxygen; higher oxygen concentrations suppressed autotrophic but not chemoorganotrophic growth. Oxygen sensitivity of chemoautotrophically growing cells of R. acidophila was even more pronounced, whereas cells growing chemotrophically on methanol almost tolerated the oxygen concentration of air. Highest oxygen sensitivity of growth of R. acidophila was observed with formate as substrate. The growth yield of cultures grown semiaerobically in the dark on methanol was 0.23 g dry cell material per g methanol consumed.     

Sulfide utilization by purple nonsulfur bacteria

Summary The purple nonsulfur bacteria Rhodospirillum rubrum SMG 107, Rhodopseudomonas capsulata SMG 155, Rps. sphaeroides SMG 158 and Rps. palustris SMG 124 were tested for a possible utilization of sulfide. The first three strains were found to oxidize sulfide to extracellular elemental sulfur only, whereas Rps. palustris SMG 124 converted sulfide into sulfate without intermediate accumulation of elemental sulfur. Growth ceased at lower sulfide concentrations than usually found with purple sulfur bacteria. In consequence of the low sulfide tolerance information on the specific growth rates obtainable with sulfide as photosynthetic electron donor could not be provided by cultivation in batch cultures. Sulfide-limited chemostat cultures of Rps. capsulata SMG 155 showed that the maximum specific growth rate was close to 0.14 h^-1 (doubling time 5 h). Sulfide was converted into extracellular elemental sulfur at all dilution rates tested. The maximum specific growth rate of Rps. palustris SMG 124 was found to be much lower (less than 0.03 h^-1). Sulfate was the only product of the conversion of sulfide.These data show that at least some purple nonsulfur bacteria may play a role in the dissimilatory sulfur cycle in nature. Taxonomic implications of our results are discussed.Abbreviation SMG Sammlung für Mikroorganismen, Göttingen     

Die Fettsäuren in ganzen Zellen,Thylakoiden und Lipopolysacchariden von Rhodospirillum rubrum und Rhodopseudomonas capsulata

Zusammenfassung Die photosynthetischen Bakterien Rhodospirillum rubrum und Rhodopseudomonas capsulata wurden auf ihre Fettsäurezusammensetzung untersucht. Die Hauptfettsäuren von R. rubrum waren C_16:0 (11%), C_16:1 (30%) und C_18:1 (52%). Vaccensäure (C_18:1) bildete 94% der Fettsäuren von Rps. capsulata. Anaerobe Lichtzellen (thylakoidhaltig) unterschieden sich nicht in ihrem Fettsäuremuster von aeroben Dunkelzellen (thylakoidfrei). Gereinigte Thylakoide aus Lichtzellen zeigten das gleiche Fettsäuremuster wie die ganzen Zellen.Nach Phenol/Wasser-Extraktion der ganzen Zellen bei 68° C war bei beiden Organismen sowohl aus Licht- als auch aus Dunkelzellen eine Substanz aus der gäßrigen Phase isolierbar, welche in den Sedimentationseigenschaften mit den Lipopolysacchariden der Enterobacteriaceae übereinstimmte und nach orientierenden Untersuchungen Zucker enthält. Aus ihr wurde ein Fettsäuregemisch gewonnen, dessen Zusammensetzung von dem aus ganzen Zellen erheblich abwich. In Rps. capsulata enthielt es C_12:1 (40%) und C_16:0 (50%), während in R. rubrum sich das Fettsäuremuster über den Bereich von C₁₀ bis C₂₀ erstreckte. Licht- und Dunkelzellen wiesen in dieser Substanz Unterschiede in der Fettsäurezusammensetzung auf. Der quantitative Anteil der Fettsäuren in dieser Substanz, bezogen auf die Gesamtfettsäuren der Zelle, betrug in Licht- und Dunkelzellen 5–7%. Hydroxy-myristinsäure ließ sich in beiden Organismen nicht nachweisen.

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Fatty acid composition of whole cells, thylakoids and lipopolysaccharides of Rhodospirillum rubrum and Rhodopseudomonas capsulata

Summary The fatty acid composition of the photosynthetic bacteria Rhodospirillum rubrum and Rhodopseudomonas capsulata was investigated. The bulk of fatty acids of R. rubrum consisted of C_16:0 (11%), C_16:1 (30%), and C_18:1 (52%). The major fatty acid of Rps. capsulata was vaccenic acid (C_18:1), which accounted for 94% of the total fatty acids. Cells of both organisms, which were grown anaerobically in the light and fitted out with thylakoids had the same fatty acid composition as cells grown aerobically in the dark, which have no thylakoids.Purified thylakoids had the same fatty acid pattern as whole cells. Whole cells of light and dark cultures were extracted with phenol/water at 68° C. An opalizing fraction in the aqueous phase was sedimentable in the ultracentrifuge like the lipopolysaccharides of the Enterobacteriaceae. The pattern of fatty acids in this compound differed considerably from that of whole cells. The major fatty acids in this macromolecular fraction were C_12:1 (40%) and C_16:0 (50%) in Rps. capsulata, whereas in R. rubrum the whole range of fatty acids from C₁₀ to C₂₀ was demonstrable. Light and dark grown cells differed in the fatty acid composition of that compound. The fatty acid content of the extracted fraction accounted for 5–7% of the total fatty acids of whole cells. No hydroxymyristic acid could be identified in either R. rubrum or Rps. capsulata.

     

Isolation of cytochrome bc 1 complexes from the photosynthetic bacteria Rhodopseudomonas viridis and Rhodospirillum rubrum

Cytochrome bc ₁ complexes have been isolated from wild type Rhodopseudomonas viridis and Rhodospirillum rubrum and purified by affinity chromatography on cytochrome c-Sepharose 4B. Both complexes are largely free of bacteriochlorophyll and carotenoids and contain cytochromes b and c ₁ in a 2:1 molar ratio. For the Rps. viridis complex, evidence has been obtained for two spectrally distinct b-cytochromes. The R. rubrum complex contains a Rieske iron-sulfur protein (present in approximately 1:1 molar ratio to cytochrome c ₁) and catalyzes an antimycin A- and myxothiazol-sensitive electron transfer from duroquinol to equine cytochrome c or R. rubrum cytochrome c ₂. Although an attempt to prepare a cytochrome bc ₁ complex from the gliding green bacterium Chloroflexus aurantiacus was not successful, membranes isolated from phototrophically grown Cfl. aurantiacus were shown to contain a Rieske iron-sulfur protein and protoheme (the prosthetic group of b-type cytochromes).Dedicated to Prof. L.N.M. Duysens on the occasion of his retirement.     

Oxidation of cytochrome c 2 by photosynthetic reaction centers of Rhodospirillum rubrum and Rhodopseudomonas sphaeroides in vivo. Effect of viscosity on the rate of reaction

In Rhodospirillum rubrum and Rhodopseudomonas sphaeroides it is shown that the oxidation of cytochrome c ₂ involves a diffusion limited process. From analysis of the results it follows that the electron transfer probability must be very low. This is corroborated by in vitro studies using the isolated components.     

Purification and properties of the adenylate kinases from Rhodopseudomonas palustris,Rhodopseudomonas sphaeroides and Rhodopseudomonas rubrum

The adenylate kinases (EC 2.7.4.3) from photosynthetically grown Rhodopseudomonas palustris, Rhodopseudomonas sphaeroides and Rhodospirillum rubrum were purified to homogeneity by the same procedure. The purified enzymes showed optimal rates of activity with MgCl₂ at 25° C and pH 8.0. They were found to be heat labile and were characterized by pI-values of 4.5. Apparent molecular weights of 33 500 for R. palustris, 34 400 for R. sphaeroides and 32 100 for R. rubrum were determined by high performance liquid chromatography. No separation into subunits was observed by use of sodium dodecylsulfate polyacrylamide gel electrophoresis. The apparent K _m -values for ADP corresponded to 0.26 mM for R. palustris, 0.27 mM for R. sphaeroides and 0.24 mM for R. rubrum. ADP in excess had a strong inhibitory effect. Competitive product inhibition was found for AMP, with K _i-values of 0.017 mM for R. palustris, 0.018 mM for R. sphaeroides and 0.014 mM for R. rubrum. A competitive inhibitor likewise was P¹,P⁵-di(adenosine-5)pentaphosphate with K _i-values of 0.020 M for R. palustris and R. sphaeroides, and 0.017 M for R. rubrum. Sulfhydryl-reacting reagents like p-chloromercuribenzoate and iodoacetic acid were found to be non-inhibitory. All measurements of adenylate kinase activity were carried out with the stabilized and most sensitive luciferin-luciferase system.     

Trennung der Thylakoidbausteine einiger Athiorhodaceae durch Gelelektrophorese

Zusammenfassung Thylakoide vonRhodospirillum rubrum, Rhodopseudomonas viridis undRhodopseudomonas capsulata wurden durch Behandlung mit Phenol-Ameisensäure in makromolekulare, in der Gelelektrophorese wandernde Fraktionen aufgespalten. Dabei ergaben sich vier deutlich hervortretende Hauptfraktionen, die zum Teil noch in Unterfraktionen aufzulösen sind.BeiRhodospirillum rubrum wurden neben den Thylakoiden auch noch Rohfraktionen der cytoplasmatischen Membran und der Zellwand mit der gleichen Methode untersucht. Alle Strukturen unterschieden sich deutlich voneinander in der Zahl und Wanderungsgeschwindigkeit ihrer Banden.Aus einer Dunkelkultur vonRhodospirillum rubrum, in der durch Absenken des Sauerstoffpartialdruckes die Thylakoidmorphogenese und Pigmentsynthese induziert worden war, wurde die Gesamtmembranfraktion isoliert, durch Behandlung mit Phenol-Ameisensäure dissoziiert und gelelektrophoretisch aufgetrennt. In den Pherogrammen war deutlich von Beginn der Induktion an eine Zunahme thylakoidspezifischer Bandenmuster zu erkennen. Ein Ausplanimetrieren der Absorptionskurven ergab, daß das Wachstum der Thylakoidstrukturen exponentiell erfolgte. Unter den Bedingungen der Kultur wurde nach etwa 8 Std ein Plateau in der Ausbildung der thylakoidspezifischen Strukturen erreicht. Die Kurve der Bacteriochlorophyllsynthese nahm einen etwas anderen Verlauf. Sie war im Bereich des exponentiellen Wachstums der Thylakoidstrukturen stärker gekrümmt, bog dann aber später ebenfalls ab, so daß sie nach 8–10 Std parallel zu den Thylakoiden verlief.

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Fractionation of thylakoid-components of some athiorhodaceae by polyacrylamide-gel electrophoresis

Summary Thylakoids (chromatophores) ofRhodospirillum rubrum, Rhodopseudomonas viridis, andRhodopseudomonas capsulata were fractionated after treatment with phenol-formic acid-water (2:1:1) by gel electrophoresis in four main fractions. The pattern of maxima was different in the three species.Crude preparations of cytoplasmic membrane and cell wall ofR. rubrum differ from the thylakoids in their pattern of electrophoresis distribution.Crude total membrane fractions were isolated from cells ofR. rubrum, which was induced to synthesize bacteriochlorophyll and thylakoids.Fractionation of the membranes by the above mentioned method shows very clearly that after induction of morphogenesis the thylakoid-specific membrane units are increased exponentially.

     

DNA-DNA hybridization of Rhodopseudomonas capsulata,Rhodopseudomonas sphaeroides and Rhodopseudomonas sulfidophila strains

The genetic relatedness of 21 Rhodopseudomonas strains has been studied by means of DNA-DNA hybridization. All strains included in the study belonged to the subgroup of the genus Rhodopseudomonas which is characterized by a short-rod to coccus morphology, a vesicular intracytoplasmic membrane system and carotenoids of the spheroidene group. Mol percentages guanine + cytosine ranged from 64 to 73, most strains having values between 68 and 72. With few exceptions, the hybridization data obtained were in agreement with the subdivision in three (or possibly four) species on the basis of classical taxonomy. Strain SCJ, formerly considered to be a somewhat atypical R. capsulata strain, is most probably a R. sphaeroides strain and two out of seven strains that were received as R. sulfidophila did not fit in this species on the basis of the hybridization data. The results also showed that two undesignated strains that were previously thought to be related to R. capsulata (Hansen et al. 1975) cannot be assigned to this species and may be representatives of another species. The seven strains that required approximately 2.5% NaCl in the medium and that had been designated R. sulfidophila were found to synthesize far higher levels of bacteriochlorophyll during fully aerobic growth in the dark than the purple bacteria studied thus far.Abbreviations GC guanosine + cytosine - SSC standard saline citrate buffer     

Characterization of Rhodopseudomonas capsulata

Thirty-three strains of Rhodopseudomonas capsulata have been studied in order to develop a more comprehensive characterization of the species. On the basis of morphological, nutritional, physiological and other properties, the characteristics of an ideal biotype have been defined, which can be used to distinguish Rps. capsulata from similar purple bacteria. In this connection, two properties of Rps. capsulata are of particular note: a) sensitivity to penicillin G is 10³–10⁵ times greater than that shown by closely related species, and b) all strains examined are susceptible to lysis by one or more strains of host species-specific virulent bacteriophages. It appears that members of the species Rps. capsulata form a stringent taxonomic grouping.     

Effects of ionophores and TPMP+ on light-induced responses in Dictyostelium discoideum

In spite of previous reports, the activities of respiratory oxygen uptake by whole cells are higher with chemotrophically than with phototrophically grown cells of Rhodospirillum rubrum and Rhodospirillum tenue. The same applies to NADH dependent respiratory reactions as determined with isolated crede membrane preparations. This is largely, but not only, due to an outstandingly high increase in activity of cytochrome c-oxidase measurable upon adaptation of phototrophically grown cells to chemotrophic conditions. In R. rubrum the dependency of the total respiratory chain on the activities of different sections of this chain becomes confused by the presence of differently composed membranes (i.e. cytoplasmic and intracytoplasmic membranes) which under the experimental conditions become functionally differentiated to different extents. But in R. tenue, which does not produce intracytoplasmic membranes, respiration at low activities parallels clearly cytochrome c oxidase activities while high respiratory activities parallel the activities of NADH dehydrogenase. The data are interpreted to indicate that, in cells of facultative phototrophic bacteria, the formation of the respiratory chain, up to certain stages, depends on the formation of the terminal oxidase. At least in R. tenue this is comparable to the role of bacteriochlorophyll in the formation of the photosynthetic apparatus.Abbreviation Bchl bacteriochlorophyll     

Temperature dependence of energy transfer from the long wavelength antenna BChl-896 to the reaction center in Rhodospirillum rubrum,Rhodobacter sphaeroides (w.t. and M21 mutant) from 77 to 177K,studied by picosecond absorption spectroscopy

Decay of the bacteriochlorophyll excited state was measured in membranes of the purple bacteria Rhodospirillum (R.) rubrum, Rhodobacter (Rb.) sphaeroides wild type and Rb. sphaeroides mutant M21 using low intensity picosecond absorption spectroscopy. The excitation and probing pulses were chosen in the far red wing of the long wavelength absorption band, such that predominantly the minor antenna species B896 was excited. The decay of B896 was studied between 77 and 177K under conditions that the traps were active. In all species the B896 excited state decay is almost temperature independent between 100 and 177K, and probably between 100 and 300 K. In this temperature range the decay rates for the various species are very similar and close to 40 ps. Below 100 K this rate remains temperature independent in Rb. sphaeroides w. t. and M21, while in R. rubrum a steep decrease sets in. An analysis of this data with the theory of nuclear tunneling indicates an activation energy for the final transfer step from B896 to the special pair of 70cm^-1 for R. rubrum and 30cm^-1 or less for Rb. sphaeroides.Abbreviations B880 and B896 the main and long wavelength bacteriochlorophyll's of the LH-1 antenna - RC reaction centre - P special pair in the RC     

Aerobiosis and the hemoprotein content of photosynthetic bacteria

Summary Rhodospirillum rubrum and Rhodopseudomonas spheroides, grown under various degrees of illumination, aeration, and iron deprivation, have been assayed for their content of cytochrome c, RHP, catalase, total iron, bacteriochlorophyll, and carotenoids.Concentrations of bacteriochlorophyll and carotenoids were consistent with the findings of Cohen-Bazire et al. (1957).Total iron content, which ranged from 0.017 to 0.04% of the dry weight, reflected the content of the principal hemoproteins but exceeded the amount of iron in these hemoproteins.The catalase content of R. rubrum, on a dry weight basis, was 0.0005% for cells grown anaerobically in the light, and 0.0028% for cells grown in darkness with vigorous aeration; that of Rps. spheroides was 0.006% and 0.25%, respectively. The catalase content in both species rose with increasingly vigorous aeration.Cytochrome c in both species, and RHP in R. rubrum, attained the same levels in cells grown under vigorous aeration as in cells grown anaerobically in the light. In cells grown under limited aeration the levels of these substances were about 50% higher. In Rps. spheroides the RHP content was greatest in cells grown anaerobically, falling under gentle aeration and declining further under more vigorous aeration.Iron deficiency caused a decrease in the catalase content of cells grown anaerobically in the light but not in cells grown aerobically. The content of cytochrome c and of RHP was diminished by iron depletion in aerobic cultures, but not in anaerobic cultures.operated by Union Carbide Corporation for the U.S.Atomic Rnergy Commission.     

The early formation of the photosynthetic apparatus in Rhodospirillum rubrum

The time dependent assembly of the photosynthetic apparatus was studied in Rhodospirillum rubrum after transfer of cells growing aerobically in the dark to low aeration. While bacteriochlorophyll (Bchl) cellular levels increase continuously levels of soluble cytochrome c ₂do not change significantly. Absorption spectra of membranes isolated at different times after transfer reveal that incorporation of carotenoids lags behind incorporation of Bchl. However, a carotenoid fraction exhibiting spectral properties of spirilloxanthin isomers was isolated apart from membranes. This carotenoid fraction even was present in homogenates from Bchl-free, aerobically grown cells. Incorporation of U-¹⁴C-proteinhydrolyzate into membrane proteins showed that proteins are mainly formed which are specific for photosynthetic membranes. Although the proportion of reaction center (RC) Bchl per light harvesting (LH) Bchl does not change the proportions of membrane proteins present in RC and LH preparations change initially. But later on the proportions of the different proteins also reach constant values. Concerning proteins characteristic for cytoplasmic membranes a differential incorporation of label can be observed. The data indicate that the photosynthetic apparatus in Rhodospirillum rubrum is assembled through a sequential mechanism.Abbreviations Bchl bacteriochlorophyll - LH light harvesting - RC reaction center - R. Rhodospirillum - R. Rhodopseudomonas     

Low-temperature optical properties and pigment organization of the B875 light-harvesting bacteriochlorophyll-protein complex of purple photosynthetic bacteria

Optical and structural properties of the B875 light-harvesting complex of purple bacteria were examined by measurements of low-temperature circular dichroism (CD) and excitation spectra of fluorescence polarization. In the B875 complex isolated from wild-type Rhodopseudomonas sphaeroides, fluorescence polarization increased steeply across the long-wavelength Q_y bacteriochlorophyll a (BChl) absorption band at both 4 and approx. 300 K. With the native complex in the photosynthetic membranes of Rhodospirillum rubrum and Rps. sphaeroides wild-type and R26-carotenoidless strains, this significant increase in polarization from 0.12 to 0.40 was only observed at low temperature. A polarization of ?0.2 was observed upon excitation in the Q_x BChl band. The results indicate that about 15% of the BChl molecules in the complex absorb at wavelengths about 12 nm longer than the other BChls. All BChls have approximately the same orientation with their Q_y transition dipoles essentially parallel and their Q_x transitions perpendicular to the plane of the membrane. At low temperature, energy transfer to the long-wavelength BChls is irreversible, yielding a high degree of polarization upon direct excitation, whereas at room temperature a partial depolarization of fluorescence by energy transfer between different subunits occurs in the membrane, but not in the isolated complex. CD spectra appear to reflect the two spectral forms of B875 BChl in Rps. sphaeroides membranes. They also reveal structural differences between the complexes of Rps. sphaeroides and Rhs. rubrum, in both BChl and carotenoid regions. The CD spectrum of isolated B875 indicates that the interactions between the BChls but not the carotenoids are altered upon isolation.     

Mutants of Rhodopseudomonas sphaeroides useful in genetic analysis

Two kinds of mutants of Rhodopseudomonas sphaeroides that should be useful in extending genetic analysis of this organism have been isolated. One is deficient in recombination and has been used to isolate derivatives of the plasmid R 68.45 which incorporate chromosomal genes of R. sphaeroides. The other is apparently defective in a DNA restriction enzyme; transfer of plasmid borne chromosomal genes of R. sphaeroides from Escherichia coli back to R. sphaeroides is greatly enhanced in these mutants.In memory of R. Y. Stanier