Your search keyword '"PHOTOSYNTHETIC bacteria"' showing total 151 results

1. Phylogenomic analysis of a metagenome-assembled genome indicates a new taxon of an anoxygenic phototroph bacterium in the family Chromatiaceae and the proposal of "Candidatus Thioaporhodococcus" gen. nov.

Author

Amulyasai, Bakshi, Anusha, Rai, Sasikala, Chintalapati, and Ramana, Chintalapati Venkata

Subjects

*PHOTOSYNTHETIC bacteria, *SULFUR bacteria, *CANDIDATUS, *GENOMES, *SEDIMENT sampling, *BACTERIA, *DATA binning

Abstract

In this study, three metagenome-assembled genomes of a sediment sample were constructed. A Bin1 (JB001) genome was identified as a photo-litho-auto/heterotroph (purple sulfur bacteria) bacterium with the ability to fix nitrogen, tolerate salt, and to produce bacteriochlorophyll a. It has a genome length of 4.1 Mb and a G + C content of 64.9%. Phylogenetic studies based on concatenated 92 core genes and photosynthetic genes (pufLM and bchY) showed that Bin JB001 is related to Thiococcus pfennigii, "Thioflavicoccus mobilis" and to the Lamprocystis purpurea lineage. Bin JB001 and its closely related members were subjected to the genome-based study of phenotypic and phylogenomic analysis. Genomic similarity indices (dDDH and ANI) showed that Bin JB001 could be defined as a novel species. The average amino acid identity (AAI) and percentage of conserved proteins (POCP) values were below 60 and 50%, respectively. The pan-genome analysis indicated that the pan-genome was an open type wherein Bin JB001 had 855 core genes. This study shows that the binned genome, Bin JB001 could represent a novel species of a new genus under the family Chromatiaceae, for which the name "Candidatus Thioaporhodococcus sediminis" gen. nov. sp. nov. is proposed. [ABSTRACT FROM AUTHOR]

Published

2022

2. Anaerobic 3-methylhopanoid production by an acidophilic photosynthetic purple bacterium.

Author

Mayer, Marisa H., Parenteau, Mary N., Kempher, Megan L., Madigan, Michael T., Jahnke, Linda L., and Welander, Paula V.

Subjects

*PHOTOSYNTHETIC bacteria, *AEROBIC bacteria, *ANAEROBIC bacteria, *BACTERIAL metabolism, *PRIMA facie evidence, *METHANOTROPHS, *ANAEROBIC microorganisms

Abstract

Bacterial lipids are well-preserved in ancient rocks and certain ones have been used as indicators of specific bacterial metabolisms or environmental conditions existing at the time of rock deposition. Here we show that an anaerobic bacterium produces 3-methylhopanoids, pentacyclic lipids previously detected only in aerobic bacteria and widely used as biomarkers for methane-oxidizing bacteria. Both Rhodopila globiformis, a phototrophic purple nonsulfur bacterium isolated from an acidic warm spring in Yellowstone, and a newly isolated Rhodopila species from a geochemically similar spring in Lassen Volcanic National Park (USA), synthesized 3-methylhopanoids and a suite of related hopanoids and contained the genes encoding the necessary biosynthetic enzymes. Our results show that 3-methylhopanoids can be produced under anoxic conditions and challenges the use of 3-methylhopanoids as biomarkers of oxic conditions in ancient rocks and as prima facie evidence that methanotrophic bacteria were active when the rocks were deposited. [ABSTRACT FROM AUTHOR]

Published

2021

3. Blastochloris tepida, sp. nov., a thermophilic species of the bacteriochlorophyll b-containing genus Blastochloris.

Author

Madigan, Michael T., Resnick, Sol M., Kempher, Megan L., Dohnalkova, Alice C., Takaichi, Shinichi, Wang-Otomo, Zheng-Yu, Toyoda, Atsushi, Kurokawa, Ken, Mori, Hiroshi, and Tsukatani, Yusuke

Subjects

*HOT springs, *MICROBIAL mats, *SPECIES, *RIBOSOMAL RNA, *PHOTOSYNTHETIC bacteria, *ABSORPTION spectra

Abstract

A new taxon is created for the thermophilic purple nonsulfur bacterium previously designated as Rhodopseudomonas strain GI. Strain GI was isolated from a New Mexico (USA) hot spring microbial mat and grows optimally above 40 °C and to a maximum of 47 °C. Strain GI is a bacteriochlorophyll b-containing species of purple nonsulfur bacteria and displays a budding morphology, typical of species of the genus Blastochloris. Although resembling the species Blc. viridis in many respects, the absorption spectrum, carotenoid content, and lipid fatty acid profile of strain GI is distinct from that of Blc. viridis strain DSM133T and other recognized Blastochloris species. Strain GI forms its own subclade within the Blastochloris clade of purple nonsulfur bacteria based on comparative 16S rRNA gene sequences, and its genome is significantly larger than that of strain DSM133T; average nucleotide identity between the genomes of Blc. viridis and strain GI was below 85%. Moreover, concatenated sequence analyses of PufLM and DnaK clearly showed strain GI to be distinct from both Blc. viridis and Blc. sulfoviridis. Because of its unique assortment of properties, it is proposed to classify strain GI as a new species of the genus Blastochloris, as Blc. tepida, sp.n., with strain GIT designated as the type strain (= ATCC TSD-138 = DSM 106918). [ABSTRACT FROM AUTHOR]

Published

2019

4. Bacterial communities of the microbial mats of Chokrak sulfide springs.

Author

Burganskaya, Ekaterina I., Bryantseva, Irina A., Krutkina, Maria S., Grouzdev, Denis S., and Gorlenko, Vladimir M.

Subjects

*MICROBIAL mats, *BACTERIAL communities, *MICROBIAL communities, *PHOTOSYNTHETIC bacteria, *SULFUR bacteria, *BENTHIC ecology

Abstract

This is the comparative investigation of the composition of phototrophic microbial mats developing in sulfide-rich saline Chokrak springs with outflow at the shore of the hypersaline lake Chokrak by means of next-generation sequencing. The springs are characterized by low temperature (~ 15 °C), near-neutral pH (6.7–8.5), and high-sulfide content. In the species composition the benthic microbial communities of Chokrak springs are similar to microbial mats of marine supralittoral and lagoons. Our results showed that salinity limitation had a significant effect on the species composition of benthic microbial communities developing at the outflow of the Chokrak springs. Predominant oxygenic phototrophs belonged to the genera Phormidium, Lyngbya, Leptolyngbya, Geitlerinema, and Arthrospira. Anoxygenic phototrophic bacteria were represented by halophilic green sulfur bacteria Prosthecochloris spp., halotolerant Chlorobaculum sp., as well as marine and extremely halophilic purple bacteria Roseospira, Rhodovibrio, and Halochromatium. Monoculture of a new species of halotolerant anoxygenic filamentous phototrophic bacteria was isolated. [ABSTRACT FROM AUTHOR]

Published

2019

5. Anabaena sp. PCC7120 transformed with glycine methylation genes from Aphanothece halophytica synthesized glycine betaine showing increased tolerance to salt.

Author

Waditee-Sirisattha, Rungaroon, Singh, Meenakshi, Kageyama, Hakuto, Sittipol, Daungjai, Rai, Ashwani, and Takabe, Teruhiro

Subjects

*ANABAENA, *GLYCINE, *METHYLATION, *CARBON cycle, *PHOTOSYNTHETIC bacteria, *NITROGEN cycle, *SALT

Abstract

Photosynthetic, nitrogen-fixing Anabaena strains play an important role in the carbon and nitrogen cycles in tropical paddy fields although they are salt sensitive. Improvement in salt tolerance of Anabaena cells by expressing glycine betaine-synthesizing genes is an interesting subject. Due to the absence of choline in cyanobacteria, choline-oxidizing enzyme could not be used for the synthesis of glycine betaine. Here, the genes encoding glycine-sarcosine and dimethylglycine methyltransferases ( ApGSMT- DMT) from a halotolerant cyanobacterium Aphanothece halophytica were expressed in Anabaena sp. strain PCC7120. The ApGSMT- DMT-expressing Anabaena cells were capable of synthesizing glycine betaine without the addition of any substance. The accumulation level of glycine betaine in Anabaena increased with rise of salt concentration. The transformed cells exhibited an improved growth and more tolerance to salinity than the control cells. The present work provides a prospect to engineer a nitrogen-fixing cyanobacterium having enhanced tolerance to stress by manipulating de novo synthesis of glycine betaine. [ABSTRACT FROM AUTHOR]

Published

2012

6. Phylogeny and photoheterotrophy in the acidophilic phototrophic purple bacterium Rhodoblastus acidophilus.

Author

Kempher, Megan and Madigan, Michael

Subjects

*ACIDOPHILIC bacteria, *PHOTOSYNTHETIC bacteria, *RHODOPSEUDOMONAS, *HYDROGEN-ion concentration, *PHYLOGENY, *ABSORPTION spectra

Abstract

Norbert Pfennig isolated the first acidophilic purple bacterium over 40 years ago and named the organism Rhodopseudomonas acidophila (now Rhodoblastus acidophilus). Since the original work of Pfennig, no systematic study has been conducted on the phylogeny and carbon nutrition of a collection of strains of Rbl. acidophilus. We have isolated six new strains of Rbl. acidophilus from a Canadian peat bog. These strains, three of the original Pfennig strains and two additional putative R. acidophilus strains isolated several years ago in this laboratory, were characterized as to their pigments, phylogeny, and carbon sources supporting photoheterotrophic growth. Phototrophic cultures were either purple or orange in color, and the color of a particular strain was linked to phylogeny. As for the Pfennig strains of Rbl. acidophilus, all new strains grew photoheterotrophically at pH 5 on a variety of organic and fatty acids. However, in addition to methanol and ethanol, the new strains as well as the Pfennig strains grew on several other primary alcohols, results not reported in the original species description. Our work shows that some phylogenetic and physiological diversity exists within the species Rbl. acidophilus and supports the observation that few species of acidophilic purple bacteria appear to exist in nature. [ABSTRACT FROM AUTHOR]

Published

2012

7. Photosynthetic characteristics of marine aerobic anoxygenic phototrophic bacteria Roseobacter and Erythrobacter strains.

Author

Sato-Takabe, Yuki, Hamasaki, Koji, and Suzuki, Koji

Subjects

*PHOTOSYNTHETIC bacteria, *EXCITATION spectrum, *BACTERIOCHLOROPHYLLS, *OPACITY (Optics), *ABSORPTION cross sections, *GROWTH rate, *HETEROTROPHIC bacteria

Abstract

A coastal Roseobacter strain of marine aerobic anoxygenic phototrophic bacteria (AAnPB) was isolated and phylogenetically determined. The strain OBYS 0001 was characterized by its physiological and biochemical properties with reference to the Erythrobacter longus type strain NBRC 14126. When grown in batch cultures, the growth curves of the both strains were similar. Cellular bacteriochlorophyll a concentrations of the strains reached the maxima in the stationary growth conditions. In vivo fluorescence excitation/optical density spectra between 470 and 600 nm for OBYS 0001 represented higher values than NBRC 14126. Variable fluorescence measurements revealed that the functional absorption cross section (σ) of the bacterial photosynthetic complexes for OBYS 0001 was significantly higher than that for NBRC 14126 under green excitation. These results suggest that Roseobacter can capture green light more efficiently than Erythrobacter for photosynthesis. The photochemical quantum efficiencies ( F/ F) of the bacterial photosynthetic complexes for OBYS 0001 were consistently lower than those for NBRC 14126. A relationship between the growth rate and F/ F was significant for OBYS 0001, but that was not found for NBRC 14126. These results suggested that F/ F for AAnPB could not be used as a proxy of the growth rate which is consistent with their mostly heterotrophic characters. [ABSTRACT FROM AUTHOR]

Published

2012

8. Chromocurvus halotolerans gen. nov., sp. nov., a gammaproteobacterial obligately aerobic anoxygenic phototroph, isolated from a Canadian hypersaline spring.

Author

Csotonyi, J., Stackebrandt, E., Swiderski, J., Schumann, P., and Yurkov, V.

Subjects

*AEROBIC bacteria, *PHOTOSYNTHETIC bacteria, *L-form bacteria, *PHYSIOLOGY

Abstract

strain EG19 of aerobic bacteria able to form pleomorphic cells was isolated from a brine spring runoff stream in the west central region of the province of Manitoba, Canada. The pale pinkish purple strain contained bacteriochlorophyll a incorporated into light-harvesting I and reaction center complexes. Its inability to grow under anaerobic illuminated conditions prompted designation as a member of the functional group known as aerobic anoxygenic phototrophic bacteria. Phylogenetic analysis of the 16S rRNA gene sequence revealed that it belonged to the Gammaproteobacteria, forming a distinct branch of phototrophs distantly related to most described aerobic anoxygenic phototrophs, quite marginally related (95.6%) both to the only other described gammaproteobacterial aerobic phototroph, Congregibacter litoralis, and also to nonphototrophs in the genus Haliea (95.1-96.1%). Physiological tests demonstrated tolerance profiles to salinity (0-18% NaCl), pH (7-12), and temperature (7-40°C) consistent with survival in a shallow hypersaline stream on the exposed, vegetation-depleted salt playa of its native East German Creek. Phylogenetic data and phenotypic properties such as pigment composition, morphology, and physiology support the proposal of the novel genus and species Chromocurvus halotolerans gen. nov., sp. nov., with EG19 (=DSM 23344, =VKM B-2659) as the type strain. [ABSTRACT FROM AUTHOR]

Published

2011

9. Two putative histidine kinases are required for cyst formation in Rhodospirillum Centenum.

Author

Din, Neena, Shoemaker, Charles J., Akin, Kent L., Frederick, Christopher, and Bird, Terry H.

Subjects

*RHODOSPIRILLALES, *HISTIDINE, *PHOTOSYNTHETIC bacteria, *ENERGY metabolism, *MUTAGENESIS, *BACTERIAL cysts

Abstract

The photosynthetic bacterium, Rhodospirillum centenum, has a flexible life cycle that permits it to survive starvation as dormant cyst cells. Previous studies have identified some of the key regulators for encystment and demonstrated that the control of development is intricate. This complexity may arise from the need to integrate several environmental signals to mediate a switch from one mode of energy metabolism to another and to ensure that a transition to dormancy is initiated only when necessary. We searched for additional regulators of development by screening for encystment deficient strains after subjecting wild type R. centenum to mini-Tn5 mutagenesis. Analysis of 'hypo-cyst' strains led to the identification of two genes that encode putative hybrid histidine kinases ( cyd1 and cyd2). Cells with deletions of either gene fail to form cysts under conditions that normally induce development. Furthermore, the deletion strains exhibit altered swarming behavior suggesting that Cyd1 and Cyd2 affect behaviors utilized when the organism is attached to a substrate. [ABSTRACT FROM AUTHOR]

Published

2011

10. Neutralization of radical toxicity by temperature-dependent modulation of extracellular SOD activity in coral bleaching pathogen Vibrio shiloi and its role as a virulence factor.

Author

Murali, Malliga Raman, Raja, Subramaniya Bharathi, and Devaraj, Sivasitambaram Niranjali

Subjects

*VIBRIO, *CORAL bleaching, *OCEAN temperature, *PHOTOSYNTHETIC bacteria, *MICROALGAE, *METHACRYLONITRILE

Abstract

Vibrio shiloi is the first and well-documented bacterium which causes coral bleaching, particularly, during summer, when seawater temperature is between 26 and 31°C. Coral bleaching is the disruption of the symbiotic association between coral hosts and their photosynthetic microalgae zooxanthellae. This is either due to lowered resistance in corals to infection or increased virulence of the bacterium at the higher sea surface temperature. The concentration of the oxygen and resulting oxygen radicals produced by the zooxanthellae during photosynthesis are highly toxic to bacteria, which also assist corals in resisting the infection. Hence, in this study we examined the effect of different temperatures on the activity of a novel extracellular SOD in V. shiloi. We also partially characterized the SOD and clearly confirmed that the extracellular SOD produced by V. shiloi is Mn–SOD type, as it was not inhibited by H2O2 or KCN. Performing chemical susceptibility killing assay, we confirmed that extracellular SOD may act as first line of defense for the bacteria against the reactive oxygen species. Since, increased activity of novel Mn–SOD at higher temperature, leads to the neutralization of radical toxicity and facilitates the survival of V. shiloi. Hence, the extracellular Mn–SOD may be considered as a virulence factor. [ABSTRACT FROM AUTHOR]

Published

2010

11. Chromium uptake, retention and reduction in photosynthetic Euglena gracilis.

Author

García-García, J. D., Rodríguez-Zavala, J. S., Jasso-Chávez, R., Mendoza-Cozatl, D., and Moreno-Sánchez, Rafael

Subjects

*CHROMIUM, *PHOTOSYNTHETIC bacteria, *EUGLENA gracilis, *CYSTEINE proteinases, *GLUTATHIONE, *POLLUTION, *SULFATES

Abstract

Photosynthetic Euglena gracilis grown with different K2CrO4 concentrations was analyzed for its ability to take up, retain and reduce Cr(VI). For comparison, cells were also exposed to CrCl3. Cellular Cr(VI) uptake at pH 7.2 showed a hyperbolic saturation pattern with Km of 1.1 mM, Vm of 16 nmol ( h × 107 cells)−1, and Ki sulfate of 0.4 mM. Kinetic parameters for sulfate uptake were similar, Km = 0.83 mM, Vm = 15.9 nmol ( h × 107cells)−1 and Ki chromate = 0.3 mM. The capacity to accumulate chromium depended on the ionic species, external concentration and pH of the incubation medium. Cr(VI) or Cr(III) accumulation was negligible in the acidic (pH 3.5) culture medium, in which Cr(VI) was abiotically reduced to Cr(III). At pH 7.2 Cr(VI) was fully stable and high accumulation (>170 nmol/1 × 107 cells at 1 mM K2CrO4) was achieved; surprisingly, Cr(III) accumulation was also significant (>35 nmol/1 × 107 cells at 1 mM CrCl3). Cr(VI) was reduced by cells at pH 7.2, suggesting the presence of an external reductive activity. Cr(VI) induced an increased cysteine and glutathione content, but not in phytochelatins suggesting that chromium accumulation was mediated by monothiol compounds. [ABSTRACT FROM AUTHOR]

Published

2009

12. Importance of the DsrMKJOP complex for sulfur oxidation in Allochromatium vinosum and phylogenetic analysis of related complexes in other prokaryotes.

Author

Sander, Johannes, Engels-Schwarzlose, Sabine, and Dahl, Christiane

Subjects

*GENETIC transformation, *PHOTOSYNTHETIC bacteria, *OXIDATION-reduction reaction, *PHYLOGENY, *PROKARYOTES, *THIOSULFATES, *MUTAGENESIS, *CHLOROBIACEAE

Abstract

In the phototrophic sulfur bacterium Allochromatium vinosum, sulfur of oxidation state zero stored in intracellular sulfur globules is an obligate intermediate during the oxidation of sulfide and thiosulfate. The proteins encoded in the dissimilatory sulfite reductase ( dsr) locus are essential for the oxidation of the stored sulfur. DsrMKJOP form a membrane-spanning complex proposed to accept electrons from or to deliver electrons to cytoplasmic sulfur-oxidizing proteins. In frame deletion mutagenesis showed that each individual of the complex-encoding genes is an absolute requirement for the oxidation of the stored sulfur in Alc. vinosum. Complementation of the ΔdsrJ mutant using the conjugative broad host range plasmid pBBR1-MCS2 and the dsr promoter was successful. The importance of the DsrMKJOP complex is underlined by the fact that the respective genes occur in all currently sequenced genomes of sulfur-forming bacteria such as Thiobacillus denitrificans and Chlorobaculum tepidum. Furthermore, closely related genes are present in the genomes of sulfate- and sulfite-reducing prokaryotes. A phylogenetic analysis showed that most dsr genes from sulfide oxidizers are clearly separated of those from sulfate reducers. Surprisingly, the dsrMKJOP genes of the Chlorobiaceae all cluster together with those of the sulfate/sulfite-reducing prokaryotes, indicating a lateral gene transfer at the base of the Chlorobiaceae. [ABSTRACT FROM AUTHOR]

Published

2006

13. Characterization of a mutant strain of Rhodovulum sulfidophilum lacking the pufA and pufB genes encoding the polypeptides for the light-harvesting complex 1 (B 870).

Author

Raiger-Iustman, Laura J., Kerber, Norma L., Pucheu, Norma L., Bornmann, Marc J., Kohler, Simon, Labahn, Andreas, Tadros, Monier, Drews, Gerhart, and García, Augusto F.

Subjects

*ENERGY transfer, *GENES, *PHENOTYPES, *SPECTRUM analysis, *PHOTOSYNTHESIS, *GENOTYPE-environment interaction

Abstract

Contradictory results on the effectiveness of energy transfer from the light harvesting complex 2 (LH2) directly to the reaction center (RC) in mutant strains lacking the core light-harvesting complex 1 (LH1) have been obtained with cells of Rhodobacter capsulatus and Rhodobacter sphaeroides. A LH1− mutant of Rhodovulum sulfidophilum, named rsLRI, was constructed by deletion of the pufBA genes, resulting in a kanamycin resistant photosynthetically positive clone. To restore the wild type phenotype, a complemented strain C2 was constructed by inserting in trans a DNA segment containing the pufBA genes. Light-induced FTIR difference spectra indicate that the RC in the rsLRI mutant and in the C2 complemented strains are functionally and structurally identical with those in the wild type strain, demonstrating that the assembly and the function of the RC is not impaired by the LH1 deletion. The photosynthetic growth rate of the rsLRI strain increased with decreasing light intensity. At 50 W m−2 no photosynthetic growth was observed. These results indicate that the light energy harvested by the LH2 complex was not or inefficiently transferred to the RC; thus most of the energy necessary for photosynthetic growth is in the LH1− strain directly absorbed by the RC. It is supposed that in the mutant strain, RC and LH2 cannot interact in an efficient way. [ABSTRACT FROM AUTHOR]

Published

2006

14. Chlorobium chlorochromatii sp. nov., a symbiotic green sulfur bacterium isolated from the phototrophic consortium “ Chlorochromatium aggregatum”.

Author

Vogl, Kajetan, Glaeser, Jens, Pfannes, Kristina R., Wanner, Gerhard, and Overmann, Jörg

Subjects

*FUNGUS-bacterium relationships, *HOMOLOGY (Biology), *DNA, *CELL membranes, *NUCLEIC acids, *CELL culture, *PHOTOSYNTHETIC bacteria

Abstract

A symbiotic green sulfur bacterium, strain CaD, was isolated from an enrichment culture of the phototrophic consortium “ Chlorochromatium aggregatum”. The capability of the epibiont to grow in pure culture indicates that it is not obligately symbiotic. Cells are Gram-negative, nonmotile, rod-shaped and contain chlorosomes. Strain CaD is obligately anaerobic and photolithoautotrophic, using sulfide as electron donor. Acetate and peptone are photoassimilated in the presence of sulfide and hydrogencarbonate. Photosynthetic pigments contain bacteriochlorophylls a and c, and γ-carotene and OH-γ-carotene glucoside laurate as the dominant carotenoids. In cells from pure cultures, chlorosomes are equally distributed along the inner face of the cytoplasmic membrane. In contrast, the distribution of the chlorosomes in symbiotic epibiont cells is uneven, with chlorosomes being entirely absent at the site of attachment to the central bacterium. The symbiotic epibiont cells display a conspicuous additional layered structure at the attachment site. The G + C content of genomic DNA of strain CaD is 46.7 mol%. On the basis of 16S rRNA sequence comparison, the strain is distantly related to Chlorobium species within the green sulfur bacteria phylum (≤94.6% sequence homology). The novel isolate is therefore described as a novel species within the genus Chlorobium, Chlorobium chlorochromatii. [ABSTRACT FROM AUTHOR]

Published

2006

15. Transformation of metals and metal ions by hydrogenases from phototrophic bacteria.

Author

Zadvorny, Oleg A., Zorin, Nikolay A., and Gogotov, Ivan N.

Subjects

*PHOTOSYNTHETIC bacteria, *METAL ions, *METALS, *HYDROGENASE, *OXIDATION

Abstract

The ability of hydrogenases isolated from Thiocapsa roseopersicina and Lamprobacter modestohalophilus to reduce metal ions and oxidize metals has been studied. Hydrogenases from both phototrophic bacteria oxidized metallic Fe, Cd, Zn and Ni into their ionic forms with simultaneous evolution of molecular hydrogen. The metal oxidation rate decreased in the series Zn>Fe>Cd>Ni and depended on the pH. The presence of methyl viologen in the reaction system accelerated this process. T. roseopersicina and L. modestohalophilus cells and their hydrogenases reduced Ni(II), Pt(IV), Pd(II) or Ru(III) to their metallic forms under H2 atmosphere. These results suggest that metals or metal ions can serve as electron donors or acceptors for hydrogenases from phototrophic bacteria. [ABSTRACT FROM AUTHOR]

Published

2005

16. Differential regulation of periplasmic nitrate reductase gene ( napKEFDABC) expression between aerobiosis and anaerobiosis with nitrate in a denitrifying phototroph Rhodobacter sphaeroides f. sp. denitrificans.

Author

Tabata, Atsuya, Yamamoto, Isamu, Matsuzaki, Masahiro, and Satoh, Toshio

Subjects

*PHOTOSYNTHETIC bacteria, *GENE expression, *CYTOCHROME b, *CYTOCHROME c, *GENOMIC imprinting, *NUCLEOTIDE sequence

Abstract

A denitrifying phototroph, Rhodobacter sphaeroides f. sp. denitrificans, has the ability to denitrify by respiring nitrate. The periplasmic respiratory nitrate reductase (Nap) catalyses the first step in denitrification and is encoded by the genes, napKEFDABC. By assaying the ß-galactosidase activity of napKEFD- lacZ fusions in wild type and nap mutant cells grown under various growth conditions, the environmental signal for inducing nap expression was examined. Under anoxic conditions with nitrate, nap genes expression in the wild-type strain was highest in the dark, and somewhat lowered by incident light, but that of the napA, napB, and napC mutant strains was low, showing that nap expression is dependent on nitrate respiration. Under oxic conditions, both the wild type and nap mutant cells showed high ß-galactosidase activities, comparable to the wild-type grown under anoxic conditions with nitrate. Myxothiazol, a specific inhibitor of the cytochrome bc 1 complex, did not affect the ß-galactosidase activity in the wild-type cells grown aerobically, suggesting that the redox state of the quinone pool was not a candidate for the activation signal for aerobic nap expression. These results suggested that the trans-acting regulatory signals for nap expression differ between anoxic and oxic conditions. Deletion analysis showed that the nucleotide sequence from -135 to -88 with respect to the translational start point is essential for nap expression either under anoxic or oxic conditions, suggesting that the same cis-acting element is involved in regulating nap expression under either anoxic with nitrate or oxic conditions. [ABSTRACT FROM AUTHOR]

Published

2005

17. Role of trehalose synthesis pathways in salt tolerance mechanism of Rhodobacter sphaeroides f. sp. denitrificans IL106.

Author

Makihara, Fumihiro, Tsuzuki, Minoru, Sato, Kiichi, Masuda, Shinji, Nagashima, Kenji, Abo, Mitsuru, and Okubo, Akira

Subjects

*PHOTOSYNTHETIC bacteria, *BIOSYNTHESIS, *GENOMES, *ENZYMES, *MICROBIAL mutation, *BIOCHEMISTRY

Abstract

The photosynthetic bacterium Rhodobacter sphaeroides ( R. sphaeroides) f. sp. denitrificans IL106 accumulates trehalose as the major organic osmoprotectant in response to a salt stress. An analysis of the R. sphaeroides 2.4.1 genome sequence revealed the presence of five different genes encoding enzymes belonging to three putative trehalose biosynthesis pathways (OtsA-OtsB, TreY-TreZ, and TreS). The function of the different pathways of trehalose was studied by characterizing strains defective in individual trehalose biosynthetic routes. A phenotypic comparison revealed that trehalose synthesis in R. sphaeroides f. sp. denitrificans IL106 is mediated mainly by the OtsA-OtsB pathway and, to some extent, by the TreY-TreZ pathway. Strains with the simultaneous inactivation of these two pathways were completely unable to synthesize trehalose. On the other hand, treS mutants showed an increase in the trehalose level. These results suggest that treS plays a role in trehalose degradation. In addition, treS was found to be important in reducing trehalose after osmotic stress was removed. In this report, we show that the strains that accumulate the most trehalose adapt to salt stress earlier. This is the first report of an organism using multiple pathways to synthesize trehalose solely for use as a compatible solute against salt stress. [ABSTRACT FROM AUTHOR]

Published

2005

18. Seeing green bacteria in a new light: genomics-enabled studies of the photosynthetic apparatus in green sulfur bacteria and filamentous anoxygenic phototrophic bacteria.

Author

Frigaard, Niels-Ulrik and Bryant, Donald

Subjects

*SULFUR bacteria, *PHOTOSYNTHETIC bacteria, *PHOTOSYNTHESIS, *NUCLEOTIDE sequence, *BIOSYNTHESIS, *OXIDATION, *INORGANIC compounds, *HOMOLOGY (Biology)

Abstract

Based upon their photosynthetic nature and the presence of a unique light-harvesting antenna structure, the chlorosome, the photosynthetic green bacteria are defined as a distinctive group in the Bacteria. However, members of the two taxa that comprise this group, the green sulfur bacteria (Chlorobi) and the filamentous anoxygenic phototrophic bacteria (“Chloroflexales”), are otherwise quite different, both physiologically and phylogenetically. This review summarizes how genome sequence information facilitated studies of the biosynthesis and function of the photosynthetic apparatus and the oxidation of inorganic sulfur compounds in two model organisms that represent these taxa,Chlorobium tepidumandChloroflexus aurantiacus. The genes involved in bacteriochlorophyll (BChl)cand carotenoid biosynthesis in these two organisms were identified by sequence homology with known BChlaand carotenoid biosynthesis enzymes, gene cluster analysis inCfx. aurantiacus, and gene inactivation studies inChl. tepidum. Based on these results, BChlaand BChlcbiosynthesis is similar in the two organisms, whereas carotenoid biosynthesis differs significantly. In agreement with its facultative anaerobic nature,Cfx. aurantiacusin some cases apparently produces structurally different enzymes for heme and BChl biosynthesis, in which one enzyme functions under anoxic conditions and the other performs the same reaction under oxic conditions. TheChl. tepidummutants produced with modified BChlcand carotenoid species also allow the functions of these pigments to be studied in vivo. [ABSTRACT FROM AUTHOR]

Published

2004

19. Characterization of the chlorosome antenna of the filamentous anoxygenic phototrophic bacterium Chloronema sp. strain UdG9001.

Author

Gich, Frederic, Airs, Ruth L., Danielsen, Marianne, Keely, Brendan J., Abella, Carles A., Garcia-Gil, Jesús, Miller, Mette, and Borrego, Carles M.

Subjects

*PHOTOSYNTHETIC bacteria, *CHROMOSOMES, *CHLOROPHYLL, *PROPIONIC acid, *FLUORESCENCE, *BACTERIA

Abstract

The absorption and fluorescence properties of chlorosomes of the filamentous anoxygenic phototrophic bacterium Chloronema sp. strain UdG9001 were analyzed. The chlorosome antenna of Chloronema consists of bacteriochlorophyll (BChl) d and BChl c together with γ-carotene as the main carotenoid. HPLC analysis combined with APCI LC-MS/MS showed that the chlorosomal BChls comprise a highly diverse array of homologues that differ in both the degree of alkylation of the macrocycle at C-8 and/or C-12 and the alcohol moiety esterified to the propionic acid group at C-17. BChl c and BChl d from Chloronema were mainly esterified with geranylgeraniol (33% of the total), heptadecanol (24%), octadecenol (19%), octadecanol (14%), and hexadecenol (9%). Despite this pigment heterogeneity, fluorescence emission of the chlorosomes showed a single peak centered at 765 nm upon excitation at wavelengths ranging from 710 to 740 nm. This single emission, assigned to BChl c, indicates an energy transfer from BChl d to BChl c within the same chlorosome. Likewise, incubation of chlorosomes under reducing conditions caused a weak increase in fluorescence emission, which indicates a small redox-dependent fluorescence. Finally, protein analysis of Chloronema chlorosomes using SDS-PAGE and MALDI-TOF-MS revealed the presence of a chlorosomal polypeptide with a molecular mass of 5.7 kDa, resembling the CsmA protein found in Chloroflexus aurantiacus and Chlorobium tepidum chlorosomes. Several minor polypeptides were also detected but not identified. These results indicate that, compared with other members of filamentous anoxygenic phototrophic bacteria and green sulfur bacteria, Chloronema possesses an antenna system with novel features that may be of interest for further investigations. [ABSTRACT FROM AUTHOR]

Published

2003

20. Rhodospirillum rubrum has a family I pyrophosphatase: purification, cloning, and sequencing.

Author

Romero, Irma, García-Contreras, Rodolfo, and Celis, Heliodoro

Subjects

*ENZYMES, *MOLECULES, *MONOMERS, *CHEMICAL purification, *CLONING, *GENETIC engineering

Abstract

The cytoplasmic pyrophosphatase of the photosynthetic bacterium Rhodospirillum rubrum was purified to electrophoretic homogeneity. The enzyme is a homohexamer of 20-kDa monomers. The gene was cloned and sequenced. Alignment of the deduced 179-amino-acid protein with known bacterial pyrophosphatases revealed conservation of all residues in the active site. Attempts to obtain an insertion mutant of the cytoplasmic pyrophosphatase gene did not yield any cell completely devoid of cytoplasmic pyrophosphatase activity. The mutants obtained showed 50% of the enzymatic activity and grew in twice the generation time of wild-type cells. This suggests that the membrane-bound pyrophosphatase of Rsp. rubrum is not sufficient for a normal growth rate, whereas the cytoplasmic enzyme is essential for growth. The characteristics of the gene and the encoded protein fit those of prokaryotic family I pyrophosphatases. [ABSTRACT FROM AUTHOR]

Published

2003

21. Rhodobacter sphaeroides has a family II pyrophosphatase: comparison with other species of photosynthetic bacteria.

Author

Celis, Heliodoro, Franco, Bernardo, Escobedo, Silvia, and Romero, Irma

Subjects

*ENZYMES, *CATALYSTS, *GENETICS, *GENOMES, *PHOTOSYNTHETIC bacteria, *BACTERIA

Abstract

The cytoplasmic pyrophosphatase from Rhodobacter sphaeroides was purified and characterized. The enzyme is a homodimer of 64 kDa. The N-terminus was sequenced and used to obtain the complete pyrophosphatase sequence from the preliminary genome sequence of Rba. sphaeroides, showing extensive sequence similarity to family II or class C pyrophosphatases. The enzyme hydrolyzes only Mg-PPi and Mn-PPi with a Km of 0.35 mM for both substrates. It is not activated by free Mg 2+, in contrast to the cytoplasmic pyrophosphatase from Rhodospirillum rubrum, and it is not inhibited by NaF, methylendiphosphate, or imidodiphosphate. This work shows that Rba. sphaeroides and Rhodobacter capsulatus cytoplasmic pyrophosphatases belong to family II, in contrast to Rsp. rubrum, Rhodopseudomonas palustris, Rhodopseudomonas gelatinosa, and Rhodomicrobium vannielii cytoplasmic pyrophosphatases which should be classified as members of family I. This is the first report of family II cytoplasmic pyrophosphatases in photosynthetic bacteria and in a gram-negative organism. [ABSTRACT FROM AUTHOR]

Published

2003

22. Phototrophic consortia: model systems for symbiotic interrelations between prokaryotes.

Author

Overmann, Jörg and Schubert, Karin

Subjects

PROKARYOTES, BACTERIA, ARCHAEBACTERIA, PHOTOSYNTHETIC bacteria, CHEMOTAXIS, CARBON compounds

Abstract

Most symbiotic prokaryotes known to date have been found in association with eukaryotes, whereas only few (3.5%) bacteria or archaea are known that have established interactions with other prokaryotes. As revealed by direct microscopic investigations, however, multiple morphotypes of highly structured associations of different prokaryotes exist in nature. These so-called consortia appear to represent the most developed type of bacterial interaction. Phototrophic consortia are associations of green sulfur bacteria that surround a central chemotrophic bacterium. In some natural environments, almost all cells of green sulfur bacteria occur in the associated state, i.e. as epibionts of phototrophic consortia. In contrast to earlier speculations, the central bacterium belongs to the β-Proteobacteria. Within the consortia, the green sulfur bacterial epibionts grow photolithoautotrophically, utilizing exogenous sulfide as photosynthetic electron donor. The entire consortium does not appear to be independent of organic carbon compounds, since it exhibits chemotaxis towards 2-oxoglutarate and, as demonstrated by microautoradiography, can also incorporate this compound. Intact consortia exhibit a scotophobic response in which the bacteriochlorophylls of the epibionts function as light sensors, whereas the chemotrophic central bacterium confers motility upon the association. Hence, a signal exchange must occur between the different bacteria. Based on their 16S rRNA gene sequences, the epibionts represent distinct phylotypes that are often only distantly related to known species of green sulfur bacteria. Since phototrophic consortia have recently become available in enrichment cultures, they can now serve as suitable model systems for the investigation of the molecular mechanisms of cell-cell recognition and signal exchange, and for studies of the coevolution of nonrelated prokaryotes. [ABSTRACT FROM AUTHOR]

Published

2002

23. True marine and halophilic anoxygenic phototrophic bacteria.

Author

Imhoff, Johannes F.

Subjects

PHOTOSYNTHETIC bacteria, PHYLOGENY, RECOMBINANT DNA, BACTERIA, MICROBIOLOGY

Abstract

Anoxygenic phototrophic bacteria are widely distributed in marine sediments and shallow waters of the coastal zone, where they often form intensely colored mass developments. The phototrophic bacteria have adapted to the whole spectrum of salt concentrations, from freshwater to saturated brines, and it is apparent that individual species have adapted well to particular habitats and mineral salts compositions, both qualitatively and quantitatively. This adaptation is reflected not only in the demand for defined ranges of salt concentrations, but also in the phylogenetic relationships of these bacteria, as established by 16S rDNA sequences. Major phylogenetic branches of purple sulfur bacteria are represented by: (1) marine and extremely halophilic Ectothiorhodospiraceae, (2) truly marine and halophilic Chromatiaceae and (3) freshwater Chromatiaceae, some of which are tolerant to low salt concentrations and are successful competitors in brackish and marine habitats. Quite similarly, salt-dependent green sulfur bacteria form distinct phylogenetic lines. In addition, also among the phototrophic α-Proteobacteria (purple nonsulfur bacteria), distinct phylogenetic lines of salt-dependent species are recognized. Available data give rise to the assumption that salt concentrations of natural habitats are an important selective factor that determines the development of a selected range of phototrophic bacteria in an exclusive way. As a consequence, the salt responses of these bacteria are reflected in their phylogenetic relationships. [ABSTRACT FROM AUTHOR]

Published

2001

24. A novel system for heterologous expression of flavocytochrome c in phototrophic bacteria using the Allochromatium vinosum rbcA promoter.

Author

De Smet, Lina, Kostanjevecki, Vesna, Guisez, Yves, and Van Beeumen, Jozef

Subjects

CYTOCHROME c, CYTOCHROMES, HEMOPROTEINS, PHOTOSYNTHETIC bacteria, BACTERIA, DEHYDROGENASES, MICROBIOLOGY, BIOLOGY

Abstract

Flavocytochrome c-sulfide dehydrogenase (FCSD), an enzyme that catalyzes the reversible conversion of sulfide to elemental sulfur in vitro, is common to bacteria that utilize reduced sulfur compounds as electron donors in the process of carbon dioxide fixation. FCSD is a heterodimer containing two different cofactors, a flavin (FAD) and one or two heme c groups, located on the separate protein subunits. Efforts to produce the holoproteins of the soluble Allochromatium vinosum FCSD and the membrane-bound Ectothiorhodospira vacuolata protein in Escherichia coli using several expression systems were unsuccessful. Although all systems used were able to export the recombinant FCSDs to the periplasm, the proteins did not incorporate heme. In order to develop a new expression system involving photosynthetic hosts (Rhodobacter capsulatus, Rhodobacter sphaeroides and Ect. vacuolata), plasmid mobilisation from E. coli donors was studied. In the search for efficient promoters for such hosts, a system was developed combining the broad-host-range plasmid pGV910 and the promoter of the A. vinosum RuBisCo gene, rbcA. Conjugation was used to enable transfer from the expression plasmid of E. coli into Rba. capsulatus, Rba. sphaeroides strains and into Ect. vacuolata. Both Rhodobacter hosts were able to transcribe the genes coding for FCSD from the rbcA promoter and to produce detectable amounts of recombinant FCSD holoprotein. Western blots showed that the best production was obtained from cells grown photosynthetically on malate or acetate with sulfide. This system may prove to be of general use for the production of recombinant c-type cytochromes in homologous or related host systems. [ABSTRACT FROM AUTHOR]

Published

2001

25. Alkalispirillum mobile gen. nov., spec. nov., an alkaliphilic non-phototrophic member of the Ectothiorhodospiraceae.

Author

Rijkenberg, Micha J., Kort, Remco, and Hellingwerf, Klaas J.

Subjects

PHOTOSYNTHETIC bacteria, RNA, CHROMATIACEAE, SULFUR bacteria, HALOPHILIC microorganisms, MOLECULAR phylogeny, MICROBIOLOGY

Abstract

From cultures of the anoxygenic phototroph Halorhodospira halophila SL-1, an aerobic, gram-negative spirillum was isolated. This moderately halophilic, alkaliphilic bacterium was motile by means of a single polar flagellum. It is described here as Alkalispirillum mobile gen. nov., spec. nov. Phylogenetic analysis of the Alkalispirillum mobile 16S rRNA gene led to its classification in the γ-subclass of the Proteobacteria, as it appears closely related to phototrophic purple sulfur bacteria of the genera Ectothiorhodospira and Halorhodospira. Surprisingly, A. mobile is an obligate aerobe. The organism grows optimally with a number of carboxylic acids (such as sodium acetate) as carbon source, at 2% (i.e. approximately 0.34 M) sodium chloride, at pH 9–10, and at temperatures ranging from 35 to 38 °C. The dominant cellular fatty acids of Alkalispirillum mobile are C12:0, C16:0, C18:1cis11, and C18:0; its G+C content is 66.2±0.5 mol%. [ABSTRACT FROM AUTHOR]

Published

2001

26. Characterization of novel bacteriochlorophyll-a-containing red filaments from alkaline hot springs in Yellowstone National Park.

Author

Boomer, Sarah M., Pierson, Beverly K., Austinhirst, Ruthann, and Castenholz, Richard W.

Subjects

CHLOROPHYLL, PHOTOSYNTHETIC bacteria, BACTERIA, MICROBIOLOGY, BIOLOGY

Abstract

Novel red, filamentous, gliding bacteria formed deep red layers in several alkaline hot springs in Yellowstone National Park. Filaments contained densely layered intracellular membranes and bacteriochlorophyll a. The in vivo absorption spectrum of the red layer filaments was distinct from other phototrophs, with unusual bacteriochlorophyll a signature peaks in the near-infrared (IR) region (807 nm and 911 nm). These absorption peaks were similar to the wavelengths penetrating to the red layer of the mats as measured with in situ spectroradiometry. The filaments also demonstrated maximal photosynthetic uptake of radiolabeled carbon sources at these wavelengths. The red layer filaments displayed anoxygenic photoheterotrophy, as evidenced by the specific incorporation of acetate, not bicarbonate, and by the absence of oxygen production. Photoheterotrophy was unaffected by sulfide and oxygen, but was diminished by high-intensity visible light. Near-IR radiation supported photoheterotrophy. Morphologically and spectrally similar filaments were observed in several springs in Yellowstone National Park, including Octopus Spring. Taken together, these data suggest that the red layer filaments are most similar to the photoheterotroph, Heliothrix oregonensis. Notable differences include mat position and coloration, absorption spectra, and prominent intracellular membranes. [ABSTRACT FROM AUTHOR]

Published

2000

27. Phylogenetic affiliation of the bacteria that constitute phototrophic consortia.

Author

Fröstl, Jürgen M. and Overmann, Jörg

Subjects

PHOTOSYNTHETIC bacteria, PHYLOGENY, MICRURGY, CHEMOTAXIS, MICROBIOLOGY

Abstract

The phylogenetic affiliation of epibionts occurring in three morphologically distinct types of green-colored phototrophic consortia was investigated. Intact consortia of the types "Chlorochromatium aggregatum", "C. glebulum", and a third previously undescribed type, tentatively named "C. magnum" were mechanically separated from accompanying bacteria by either micromanipulation or by chemotactic accumulation in sulfide-containing capillaries. A 540-base-pair-long fragment of the 16S rRNA gene of the epibionts was amplified employing PCR primers specific for green sulfur bacteria. DNA fragments were separated by denaturing gradient gel electrophoresis and subsequently sequenced. The results of this phylogenetic analysis indicated that the symbiotic epibionts, together with only a few free-living strains, form a cluster within the green sulfur bacterial radiation which is only distantly related to the majority of known representatives of this phylum. Consortia with identical morphology but different origin exhibited significant differences in their partial 16S rRNA gene sequences, which could be confirmed by analysis of the 16S rRNA secondary structure. The phylogenetic affiliation of the chemotrophic central rod-shaped bacterium of "C. aggregatum" and "C. magnum" was analyzed by fluorescent in situ hybridization. According to our results and contrary to earlier assumptions, the central bacterium is a member of the β-subgroup of the Proteobacteria. [ABSTRACT FROM AUTHOR]

Published

2000

28. Regulation of nitrogenase activity in Rhodobacter capsulatus under dark microoxic conditions.

Author

Yakunin, Alexander F. and Hallenbeck, Patrick C.

Subjects

NITROGENASES, ADENOSINE diphosphate, PHOTOSYNTHETIC bacteria, ENZYMES, BIOCHEMISTRY, MICROBIOLOGY

Abstract

Rhodobacter capsulatus modulates its in vivo nitrogenase activity in the light in response to the addition of NH4+ in a variety of ways: with ADP-ribosylation of the Fe-protein of nitrogenase, with a switch-off response that is independent of ADP-ribosylation, and with a "magnitude response." In the light, these responses are differentially shown by cultures that differ in the degree of their nitrogen limitation. Here we examined the response of these culture types to the addition of NH4+ under dark, microoxic conditions and found that all three responses can be observed under these conditions. However, the magnitude response was much more sensitive to the ammonium concentration, and the ADP-ribosylation response correlated only poorly with activity changes, similar to results obtained in the light. In contrast to previous reports, Fe-protein was not ADP-ribosylated in response to the presence of oxygen. [ABSTRACT FROM AUTHOR]

Published

2000

29. Induction by nitrate of cytoplasmic and periplasmic proteins in the photodenitrifier Rhodobacter sphaeroides forma sp. denitrificans under anaerobic or aerobic condition.

Author

Sabaty, Monique, Gagnon, Jean, and Verméglio, André

Abstract

The synthesis of nitrate, nitrite, and nitrous oxide reductases is highly enhanced by the addition of nitrate during growth of Rhodobacter sphaeroides forma sp. denitrificans. Contrary to what is observed in many denitrifiers, the synthesis of these enzymes is not repressed by oxygen at concentrations as high as 37% air saturation. When oxygen concentration is increased up to 100% air saturation, the synthesis of nitrite and nitrous oxide reductases is repressed while the nitrate reductase is still synthesized. Two proteins, one periplasmic (35kDa) and the other cytoplasmic (32kDa), are also induced by nitrate, but not by trimethylamine- N-oxide or oxygen. Although their function is not yet known, these two proteins appear to be specifically linked to the denitrification pathway. The amino acid sequences of tryptic peptides and of the N-terminal ends of these proteins indicate no significant similarity with the sequences in the Swiss Prot Data Bank. However, a very good alignment is obtained between the amino acid sequences of the periplasmic nitrate reductase of Alcaligenes eutrophus H16 and those of various tryptic peptides of the nitrate reductase of R. sphaeroides forma sp. denitrificans. [ABSTRACT FROM AUTHOR]

Published

1994

30. Inhibition of nitrate reduction by light and oxygen in Rhodobacter sphaeroides forma sp. denitrificans.

Author

Sabaty, Monique, Gans, Pierre, and Verméglio, André

Abstract

Light inhibited each step of the denitrification process in whole cells of Rhodobacter sphaeroides forma sp. denitrificans. This inhibition by light was prevented in the presence of exogenous electron donors like N,N,N′,N′-tetramethyl- p-phenylenediamine (TMPD) plus ascorbate or in the presence of an uncoupler (carbonyl cyanide m-chlorophenylhydrazone). Addition of myxothiazol restored the inhibition by light in uncoupled cells. Measurements of light-induced absorbance changes under these conditions showed that this inhibition is due, for the steps of reduction of nitrite to dinitrogen, to the photooxidation of cytochromes c plus c and not due to the photoinduced membrane potential. Moreover, the presence of oxygen inhibited almost all of the reduction of nitrate and nitrous oxide but only 70% of the reduction of nitrite to nitrous oxide. These inhibitions were overcome in the presence of TMPD plus ascorbate. This implies that the inhibition in presence of oxygen was due to a diversion of the reducing power from the denitrifying chain to the respiratory chain. It was concluded from this series of experiments that the reduction of nitrate to nitrite is inhibited when the ubiquinone pool is partly oxidized and that nitrite and nitrous oxide reductions are inhibited when cytochromes c plus c are oxidized by photosynthesis or respiration. [ABSTRACT FROM AUTHOR]

Published

1993

31. Gas vesicle formation and buoyancy regulation in Pelodictyon phaeoclathratiforme (Green sulfur bacteria).

Author

Overmann, Jörg, Lehmann, Susanne, and Pfennig, Norbert

Abstract

Gas vesicle formation and buoyancy regulation in Pelodictyon phaeoclathratiforme strain BU1 (Green sulfur bacteria) was investigated under various laboratory conditions. Cells formed gas vesicles exclusively at light intensities below 5 μmol · m · s in the stationary phase. No effect of incubation temperature or nutrient limitation was observed. Gas space of gas vesicles occupied always less than 1.2% of the total cell volume. A maximum cell turgor pressure of 330 kPa was determined which is comparable to values determined for cyanobacterial species. Since a pressure of at least 485 kPa was required to collapse the weakest gas vesicles in Pelodictyon phaeoclathratiforme, short-term regulation of cell density by the turgor pressure mechanism can be excluded. Instead, regulation of the cell density is accomplished by the cease of gas vacuole production and accumulation of carbohydrate at high light intensity. The carbohydrate content of exponentially growing cells increased with light intensity, reaching a maximum of 35% of dry cell mass above 10 μmol · m · s. Density of the cells increased concomitantly. At maximum density, protein and carbohydrate together accounted for 62% of the total cell ballast. Cells harvested in the stationary phase had a significantly lower carbohydrate content (8-12% of the dry cell mass) and cell density (1010-1014 kg · m with gas vesicles collapsed) which in this case was independent of light intensity. Due to the presence of gas vesicles in these cultures, the density of cells reached a minimum value of 998.5 kg · m at 0.5 μmol · m · s. The cell volume during the stationary phase was three times higher than during exponential growth, leading to considerable changes in the buoyancy of Pelodictyon phaeoclathratiforme. Microscopic observations indicate that extracellular slime layers may contribute to these variations of cell volume. [ABSTRACT FROM AUTHOR]

Published

1991

32. Construction of a physical map of the 45 kb photosynthetic gene cluster of Rhodobacter sphaeroides.

Author

Coomber, S. and Hunter, C.

Abstract

1) A number of overlapping clones have been isolated from a Rhodobacter sphaeroides gene bank. Following conjugative gene transfer from Escherichia coli these clones restore a wild type phenotype to several mutants unable to synthesise bacteriochlorophyll. 2) The insert DNA was analysed by restriction mapping and together the clones form the basis of the first restriction map of the 45 kb photosynthetic gene cluster of Rb. sphaeroides. 3) This cluster is bounded on one side by puh A encoding the reaction centre H polypeptide and on the other by the puf operon encoding reaction centre L and M apoproteins and light harvesting LH1 and polypeptides. 4) DNA fragments from the 45 kb cluster were used to probe genomic DNA from other photosynthetic bacteria. Using heterologous hybridisation conditions, a significant degree of homology is shown between Rb. sphaeroides and these other bacteria, suggesting close evolutionary links with Rb. capsulatus in particular. [ABSTRACT FROM AUTHOR]

Published

1989

33. Immunocytochemical localization of glutamine synthetase in Rhodobacter capsulatus E1F1 and Rhodopseudomonas acidophila.

Author

Romero, Francisco, López-Ruiz, Antonio, Verbelen, Jean-Pierre, and Roldán, José

Abstract

Intracellular localization of glutamine synthetase has been studied by immunochemical techniques with cryosections and London Resin sections of Rhodobacter capsulatus E1F1 and Rhodopseudomonas acidophila. For immunostaining, sections were sequentially incubated with monospecific anti-glutamine synthetase antibodies ( R. capsulatus) and gold labelled goat anti-rabbit antibodies. Gold label was present in the cytoplasm but not in the cell walls. The antigen is not associated with the cell membrane or with photosynthetic vesicle whether these are round and randomly distributed ( R. capsulatus) or flattened and organized in well defined stacks ( R. acidophila). Our results also indicate that glutamine synthetase is absent from the central, nucleoid part of the cell. The enzyme is present in dense cytoplasmic patches, which appear to be RNA-ribosome-containing areas. [ABSTRACT FROM AUTHOR]

Published

1988

34. Isolation and characterization of Rhodobacter capsulatus strains lacking endogenous plasmids.

Author

Willison, J., Magnin, J., and Vignais, P.

Abstract

Phodobacter capsulatus (formerly Rhodopseudomonas capsulata) strain B10 was found to contain a single plasmid of molecular weight 86×10. Strains lacking this plasmids were isolated by various methods from strains containing the mutant R plasmid, pTH10. With the exception of two strains, which were found to contain chromosomal insertions of R plasmid DNA, strains lacking the endogenous plasmid appeared to be unaffected in any of the following metabolic or genetic functions: photosynthetic, autotrophic, diazotrophic, and dark, anaerobic growth; the production of bacteriocin; homologous recombination; the restriction of foreign DNA; and the production of gene transfer agent. DNA-DNA hybridization experiments confirmed that the plasmid had been eliminated from these strains and not become integrated into the chromose. However, sequences homologous to those of the endogenous plasmid were found to be present in the chromosome of R. capsulatus B10. This suggests, among other possibilities, that the endogenous plasmid may have originated in the chromosome, and might serve to duplicate certain chromosomal functions. [ABSTRACT FROM AUTHOR]

Published

1987

35. Methylammonium uptake by Rhodobacter capsulatus.

Author

Rapp, Barbara, Landrum, Deborah, and Wall, Judy

Abstract

The ammonium uptake system of Rhodobacter capsulatus B100 was examined using the ammonium analog methylammonium. This analog was not transported when cells were grown aerobically on ammonium. When cultured on glutamate as a nitrogen source, or when nitrogen-starved, cells would take up methylammonium. Therefore, in cells grown under nitrogen-limiting conditions, a second system of ammonium uptake (or a modified form of the first) is present which is distinguished by its capacity for transporting the analog in addition to ammonium. The methylammonium uptake system exhibited saturation kinetics with a K of 22 μM and a V of about 3 nmol per min · mg protein. Ammonium completely inhibited analog transport with a K in the range of 1 μM. Once inside the cell methylammonium was rapidly converted to γ-N-methylglutamine; however, a small concentration gradient of methylammonium could still be observed. Kinetic parameters reflect the effects of assimilation. The methylammonium uptake system was temperature and pH dependent, and inhibition studies indicated that energy was required for the system to be operative. A glutamine auxotroph (G29) lacking the structural gene for glutanime synthetase did not accumulate the analog, even when nitrogen starved. The Nif mutant J61, which is unable to express nitrogenase structural genes, also did not transport methylammonium, regardless of the nitrogen source for growth. However, the mutant exhibited wild-type ammonium uptake and glutamine synthetase activity. These data suggest that transport of ammonium is required for growth on limited nitrogen and is under the control of the Ntr system in R. capsulatus. [ABSTRACT FROM AUTHOR]

Published

1986

36. Recovery of the alternative oxidase dependent electron flow by fusion of membrane vesicles from Rhodobacter capsulatus mutant strains.

Author

Zannoni, Davide, Peterson, Stephen, and Marrs, Barry

Abstract

Membranes from the facultative photosynthetic bacterium Rhodobacter capsulatus can be fused by sonication in vitro to form hybrid membranes, some of which are vesicles. The organization of the redox complexes involved in alternative-oxidase dependent electron transport of R. capsulatus can be studied by testing for in vitro complementation of this activity lacking in membranes from genetic mutants. The results obtained in complementation tests between well characterized mutants support current models of organization of electron transport components in R. capsulatus and confirm the in situ existence of independent functional entities such as NADH-dehydrogenase, reaction center, bacteriochlorophyll light-harvesting complexes and alternative-oxidase (cyt. 'o'). The demonstration that artefactual mixing between different membrane entities may only be induced by treatments such as ultrasonic irradiation promoting intervesicular recombination has been taken as evidence that photorespiratory processes truly reflect an in vivo situation. [ABSTRACT FROM AUTHOR]

Published

1986

37. Bacteriochlorophyll-protein complexes of aerobic bacteria, Erythrobacter longus and Erythrobacter species OCh 114.

Author

Shimada, Keizo, Hayashi, Hidenori, and Tasumi, Mitsuo

Abstract

Bacteriochlorophyll(Bchl)-protein complexes were isolated from obligate aerobic bacteria, Erythrobacter longus and Erythrobacter species OCh 114. The apparent molecular weights, absorption spectra and polypeptide compositions of the light-harvesting complexes were, in general, similar to those of the light-harvesting Bchl-protein complexes of purple photosynthetic bacteria. The reaction center complexes of these bacteria also showed similar properties to those of the purple bacteria except for slightly altered polypeptides. However, the following characteristic features of the light-harvesting systems were found in these aerobic bacteria. Major carotenoids were not bound to the Bchl-protein complex in E. longus. In Erythrobacter sp. OCh 114, a new type of Bchl-protein complex which showed a single absorption band in the near infrared region at 806 nm was obtained. The reaction center of strain OCh 114 was associated with a c-type cytochrome. [ABSTRACT FROM AUTHOR]

Published

1985

38. Cytochromes in Chloroflexus aurantiacus grown with and without oxygen.

Author

Pierson, Beverly

Abstract

The major types of cytochromes present in Chloroflexus aurantiacus strain J-10-f1 were determined by analysis of cell-free preparations and membranes from cells grown phototrophically and chemotrophically. Reduced minus oxidized difference spectroscopy as well as quantitative analysis of the pyridine ferrohemochromogens in alkaline solution were used to determine the classes of cytochromes present. Evidence for membrane-bound cytochromes of the b and c-type was found in cell-free preparations of phototrophically grown cells. Difference spectra revealed absorption maxima at 553 nm, 523 nm, and 418 nm and a shoulder at 562 nm. Protoheme and heme c were identified as alkaline pyridine ferrohemochromogens with absorption maxima at 556 and 550 nm respectively. The ratio of heme c to protoheme in the cell-free preparation was about 10 to 1 with 0.65 μmol of heme c and 0.067 μmol of protoheme per gram of total cell protein. Dithionite plus carbon monoxide minus dithionite reduced difference spectra of membranes revealed a peak at 414 nm and troughs at 552, 523, and 423 nm consistent with a CO-binding cytochrome c. Similar analyses of chemotrophically grown cells revealed evidence for the presence of membrane-bound cytochromes of the c, b, and a classes with absorption maxima at 552-557 and 593-596 nm. Protoheme, heme c and heme a were detected as pyridine ferrohemochromogens with maxima at 556, 550, and 588 nm respectively. The ratio of heme c to protoheme was about 3 to 1 with 0.44 μmol of heme c and 0.16 μmol of protoheme per gram of total cell protein. [ABSTRACT FROM AUTHOR]

Published

1985

39. The Rhodopseudomonas viridis photosynthetic membrane: arrangement in situ.

Author

Miller, Kenneth and Jacob, Jules

Abstract

The organization of photosynthetic membranes in the cytoplasm of the photosynthetic bacterium Rh. viridis has been examined by several techniques for electron microscopy. Thin sections of membrane stacks show that the regular lattice of membrane subunits reported in other studies can be observed in thin section. Tilting of sections in the electron microscope shows that the regular lattices of several membranes overlap in a way that suggests they are in register with each other. This observation can be confirmed by freeze-fracture images in which a regular arrangement of membrane lattices can be observed, each perfectly aligned. Analysis of the spacings of membrane pairs shows that the photosynthetic membranes of Rh. viridis are very closely apposed. The mean diameter of two membranes is 160A, and the average space between two such membranes is only 42A. When a recently developed atomic level model of Rh. viridis reaction center is superimposed against these spacings, each reaction center extends from the surface of its respective membrane far enough to make contact with an apposing membrane. The limited free space between membranes and regular alignment of lattices has a number of implications for how this membrane is organized to carry out the process of energy transfer. [ABSTRACT FROM AUTHOR]

Published

1985

40. Regulation of nitrogenase activity by covalent modification in Chromatium vinosum.

Author

Gotto, John and Yoch, Duane

Abstract

Nitrogenase in Chromatium vinosum was rapidly, but reversibly inhibited by NH. Activity of the Fe protin component of nitrogenase required both Mn and activating enzyme. Activating enzyme from Rhodospirillum rubrum could replace Chromatium chromatophores in activating the Chromatium Fe protein, and conversely, a protein fraction prepared from Chromatium chromatophores was effective in activating R. rubrum Fe protein. Inactive Chromatium Fe protein contained a peptide covalently modified by a phosphate-containing molecule, which migrated the same in SDS-polyacrylamide gels as the modified subunit of R. rubrum Fe protein. In sum, these observations suggest that Chromatium nitrogenase activity is regulated by a covalent modification of the Fe protein in a manner similar to that of R. rubrum. [ABSTRACT FROM AUTHOR]

Published

1985

41. Rationalization of properties of nitrate reductases in Rhodopseudomonas capsulata.

Author

McEwan, Alastair, Jackson, J., and Ferguson, Stuart

Published

1984

42. Triterpenoids from lipids of Rhodomicrobium vanniellii.

Author

Howard, Diana, Simoneit, Bernd, and Chapman, David

Abstract

Triterpenoids have been isolated from the lipids of the anaerobic, photosynthetic bacterium, Rhodomicrobium vannielii. These compounds constitute various hopanoids, including hydrocarbons, 22-, 29-and 3β-hydroxy, 3-keto-, C-3 and C-21 methyl-triterpenoids, as well as fernenes. [ABSTRACT FROM AUTHOR]

Published

1984

43. Electron flow to dimethylsulphoxide or trimethylamine-N-oxide generates a membrane potential in Rhodopseudomonas capsulata.

Author

McEwan, Alastair, Ferguson, Stuart, and Jackson, J.

Abstract

Under dark and essentially anaerobic conditions electron flow to either dimethylsulphoxide or trimethylamine-N-oxide in cells of Rhodopseudomonas capsulata has been shown to generate a membrane potential. This conclusion is based on the observation of a red shift in the carotenoid absorption band which is a well characterised indicator of membrane potential in this bacterium. The magnitude of the dimethylsulphoxide- or trimethylamine-N-oxide-dependent membrane potential was reduced either by a protonophore uncoupler of oxidative phosphorylation or synergistically by a combination of a protonophore plus rotenone, an inhibitor of electron flow from NADH dehydrogenase. These findings, together with the observation that venturicidin, an inhibitor of the proton translocating ATPase, did not reduce the membrane potential, show that electron flow to dimethylsulphoxide or trimethylamine-N-oxide is coupled to proton translocation. Thus contrary to some previous proposals dark and anaerobic growth of Rps. capsulata in the presence of dimethylsulphoxide or trimethylamine-N-oxide cannot be regarded as purely fermentative. [ABSTRACT FROM AUTHOR]

Published

1983

44. Some properties of glutamine synthetase and glutamate synthase from Chlorobium vibrioforme f. thiosulfatophilum.

Author

Khanna, S. and Nicholas, D.

Abstract

The phototrophic green sulphur bacterium Chlorobium vibrioforme f. thiosulfatophilum assimilated ammonia via glutamine synthetase and glutamate synthase when grown with ammonia up to 30 mM, but above this level glutamate dehydrogenase was the key enzyme. Glutamine synthetase purified 42-fold was found to be adenylylated. The γ-glutamyltransferase activity of the enzyme was markedly inhibited by alanine, glycine, serine and lysine, and these amino acids in various combinations showed cumulative inhibition. Adenine nucleotides also inhibited enzyme activity, especially ATP. Glutamate synthase purified 222-fold had a maximum absorption at 440 nm which was reduced by sodium dithionite, and the enzyme was inhibited by atebrin indicating the presence of a flavin component. The enzyme had specific requirements for NADH, α-ketoglutarate and l-glutamine, the K values for these were 13.5, 270 and 769 μM respectively. Glutamate synthase was sensitive to feedback inhibition by amino acids, adenine nucleotides and other metabolites and the combined effects of these inhibitors was cumulative. [ABSTRACT FROM AUTHOR]

Published

1983

45. Generation of succinyl-coenzyme A in photosynthetic bacteria.

Author

Beatty, J. and Gest, Howard

Abstract

Pathways of succinyl-Coenzyme A (succinyl-CoA) formation in various photosynthetic bacteria were investigated through several approaches, including determination of activity levels of relevant enzymes. Extracts of photosynthetically grown cells of representative Rhodospirillaceae and Chromatium vinosum showed α-ketoglutarate dehydrogenase (KGD) activities sufficient to account for generation of the succinyl-CoA required for biosynthetic metabolism. Except as noted below, the observed ratios of fumarate reductase/succinate dehydrogenase activities were low, consistent with the conclusion that these organisms produce succinyl-CoA oxidatively from α-ketoglutarate (KG), rather than by reductive metabolism of fumarate. On the other hand, the green bacterium Chlorobium limicola appears to produce succinyl-CoA by the reductive pathway; in this organism, KGD activity could not be detected, and a high fumarate reductase/succinate dehydrogenase ratio was observed. Results obtained with Rhodopseudomonas gelatinosa suggest that this otherwise typical member of the Rhodospirillaceae may be able to generate succinyl-CoA via both 'arms' of the citric acid cycle, that is, oxidatively from KG, and reductively from fumarate. To further explore the several physiological roles of the conversion: KG→succinyl-CoA in Rhodopseudomonas capsulata, a mutant (strain KGD 11) almost completely blocked in KGD activity was isolated and studied in detail. Under anaerobic photosynthetic conditions, KGD 11 grows readily on succinate as the sole carbon source; in contrast to the wild type parent, however, it cannot grow with l-glutamate as the source of carbon. The R. capsulata parental strain can grow in darkness as an aerobic heterotroph on various carbon/energy sources including pyruvate, D,L-malate, or succinate. Mutant KGD 11, however, is unable to grow aerobically on the substrates noted. These results indicate that the energy for aerobic dark growth of R. capsulata is provided by 'respiratory phosphorylation' fueled by citric acid cycle function, and that this requires a substantial level of KGD activity. The present findings also indicate that citric acid cycle sequences in most of the Rhodospirillaceae prominently used in current research are geared to operate in the oxidative direction, as in nonphotosynthetic aerobic heterotrophs. [ABSTRACT FROM AUTHOR]

Published

1981

46. The effect of venturicidin on light and oxygen-dependent electron transport, proton translocation, membrane potential development and ATP synthesis in intact cells of Rhodopseudomonas capsulata.

Author

Cotton, Nicholas, Clark, Adam, and Jackson, J.

Abstract

Venturicidin behaves as an orthodox energy transfer inhibitor in intact cells of Rhodopseudomonas capsulata as judged by the following criteria. 1. It led to inhibition of respiration. Inhibition was relieved by low concentrations of uncoupling agent. 2. It enhanced light-induced and oxygen dependent H efflux. 3. It stimulated light-induced and oxygen dependent carotenoid band shifts. The rate of decay of the band shifts after short flash excitation was decreased in the presence of venturicidin. 4. It stimulated light-induced and oxygen dependent butyltriphenylphosphonium uptake. 5. It inhibited the rise in cellular ATP concentration accompanying either photosynthesis or respiration. [ABSTRACT FROM AUTHOR]

Published

1981

47. Characterization of the plasmid DNAs of Rhodopseudomonas capsulata.

Author

Hu, N. and Marrs, B.

Abstract

Presence of extrachromosomal DNa in Rhodopseudomonas capsulata strain BH9 was shown by the appearance of a satellite band in a dye-buoyant density gradient. Radioactively labelled DNA was prepared from this satellite band and examined on a 5-20% sucrose gradient. Three radioactive peaks with sedimentation coefficients of 100 S, 94 S, and 58-64 S, respectively, were consistently observed. Analysis of these sedimentation coefficients suggested that there are two species of plasmid DNA with molecular sizes of 94×10 daltons (named pBH91) and 74×10 daltons (named pBH92). The 58-64 S peak is attributed to open circular molecules. DNAs from each peak of the sucrose gradient were examined by electronmicroscopy, and the results agree closely with those of the sucrose gradient analysis. Reassociation kinetics of the plasmid DNA was also followed. Addition of total DNA of strain BH9 increased the renaturation rate of the plasmid DNA. It was calculated from the magnitude of the increase that approximately 10% of the BH9 total DNA may hybridize with the plasmid sequences. DNA prepared from the gene transfer agent (GTA) produced by R. capsulata increases the renaturation rate of the plasmid to the same extent as total DNA isolated from the GTA producing strain, Y262. [ABSTRACT FROM AUTHOR]

Published

1979

48. A pleiotropic mutant of Rhodopseudomonas capsulata defective in nitrogen metabolism.

Author

Wall, Judy, Johansson, Bo, and Gest, Howard

Abstract

Wild type strains of Rhodopseudomonas capsulata typically can use N, NH, or various nitrogenous organic compounds as N sources for photosynthetic growth. One class of mutants selected for inability to grow on N (Nif) also shows simultaneous loss of capacity to obtain N from numerous organic substrates. When supplied at relatively high concentrations, ammonia can be used as the sole N source for growth of such strains. Enzymatic analysis of one mutant (W11) indicates that the pleiotropic effect on N nutrition is neither due to detectable alteration in the activities of nitrogenase or the initial enzymes responsible for bulk assimilation of ammonia (glutamine synthetase and glutamate synthase) nor to absence of systems required for catabolism of organic N sources. The phenotype of W11 (Nit; defective in N metabolism) appears to result from loss of ability to grow using low concentrations of ammonia (supplied externally or generated in vivo). [ABSTRACT FROM AUTHOR]

Published

1977

49. Mechanisms of CO fixation in bacterial photosynthesis studied by the carbon isotope fractionation technique.

Author

Sirevåg, R., Buchanan, B., Berry, J., and Troughton, J.

Abstract

1. The carbon isotope discrimination properties of a representative of each of the three types of photosynthetic bacteria Chlorobium thiosulfatophilum, Rhodospirillum rubrum and Chromatium and of the C-alga Chlamydomonas reinhardii were determined by measuring the ratio of CO to CO incorporated during photoautotrophic growth. 2. Chromatium and R. rubrum had isotope selection properties similar to those of C-plants, whereas Chlorobium was significantly different. 3. The results suggest that Chromatium and R. rubrum assimilate CO mainly via ribulose 1,5-diphosphate carboxylase and the associated reactions of the reductive pentose phosphate cycle, whereas Chlorobium utilizes other mechanisms. Such mechanisms would include the ferredoxin-linked carboxylation enzymes and associated reactions of the reductive carboxylic acid cycle. [ABSTRACT FROM AUTHOR]

Published

1977

50. Photoproduction of ammonium ion from N in Rhodospirillum rubrum.

Author

Weare, N. and Shanmugam, K.

Abstract

NH excretion was undetectable in N-fixing cultures of Rhodospirillum rubrum (S-1) and nitrogenase activity in these cultures was repressed by the addition of 10 mM NH to the medium. The glutamate analog, l-methionine- dl-sulfoximine (MSX), derepressed N fixation even in the presence of 10 mM extracellular NH. When 10 mg MSX/ml was added to cultures just prior to nitrogenase induction they developed nitrogenase activity (20% of the control activities) and excreted most of their fixed N as NH. Nitrogenase activities and NH production from fixed N were increased considerably when a combined nitrogen source, NH (>40 μmoles NH/mg cell protein in 6 days) or l-glutamate (>60 μmoles NH/mg cell protein in 6 days) was added to the cultures together with MSX. Biochemical analysis revealed that R. rubrum produced glutamine synthetase and glutamate synthase (NADP-dependent) but no detectable NADP-dependent glutamate dehydrogenase. The specific activity of glutamine synthetase was observed to be maximal when nitrogenase activity was also maximal. Nitrogenase and glutamine synthetase activities were repressed by NH as well as by glutamate. The results demonstrate that utilization of solar energy to photoproduce large quantities of NH from N is possible with photosynthetic bacteria by interfering with their regulatory control of N fixation. [ABSTRACT FROM AUTHOR]

Published

1976