Diel Variations in Carbon Metabolism by Green Nonsulfur-Like Bacteria in Alkaline Siliceous Hot Spring Microbial Mats from Yellowstone National Park

Meer, Marcel T. J. van der; Schouten, Stefan; Bateson, Mary M.; Nübel, Ulrich; Wieland, Andrea; Kühl, Michael; Leeuw, J.W. de; Damsté, Jaap S. Sinninghe; Ward, David M.

doi:10.1128/aem.71.7.3978-3986.2005

Cited by 94 publications

(115 citation statements)

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“…This pathway, which is known to be used by Chloroflexus spp., results in isotopically heavier organic carbon than that fixed in the Calvin cycle (21,22,40,43). This photoautotrophic biochemistry of FAPs in the mat was confirmed in labeling experiments using 13 C-labeled bicarbonate, which suggested that the 13 C label was incorporated into FAP biomarkers and FAP biomass (46,47). However, Roseiflexus spp., not Chloroflexus spp., are the dominant mat FAPs, and R. castenholzii has not been shown to grow photoautotrophically (20).…”

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confidence: 78%

“…Although a recent pyrosequencing study argued against this producer-consumer relationship (33), we have observed evidence that 13 CO 2 fixed by Synechococcus spp. into polyglucose is transferred to FAPs via assimilation of [ 13 C]acetate derived from cyanobacterial fermentation (46). Compound-specific stable carbon isotope studies of FAP biomarkers also suggested that FAPs may be photoautotrophic (42,45).…”

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confidence: 99%

“…); they also contain newly described anoxygenic phototrophic bacteria (8) and many organisms involved in mat decomposition (49). We have studied the composition and structure of the mat community using both nucleic acid and lipid biomarker approaches (50), as well as the functional contributions of and interactions among community members (34,46,47).…”

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Cultivation and Genomic, Nutritional, and Lipid Biomarker Characterization of Roseiflexus Strains Closely Related to Predominant In Situ Populations Inhabiting Yellowstone Hot Spring Microbial Mats

et al. 2010

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Roseiflexus sp. strains were cultivated from a microbial mat of an alkaline siliceous hot spring in Yellowstone National Park. These strains are closely related to predominant filamentous anoxygenic phototrophs found in the mat, as judged by the similarity of small-subunit rRNA, lipid distributions, and genomic and metagenomic sequences. Like a Japanese isolate, R. castenholzii, the Yellowstone isolates contain bacteriochlorophyll a, but not bacteriochlorophyll c or chlorosomes, and grow photoheterotrophically or chemoheterotrophically under dark aerobic conditions. The genome of one isolate, Roseiflexus sp. strain RS1, contains genes necessary to support these metabolisms. This genome also contains genes encoding the 3-hydroxypropionate pathway for CO 2 fixation and a hydrogenase, which might enable photoautotrophic metabolism, even though neither isolate could be grown photoautotrophically with H 2 or H 2 S as a possible electron donor. The isolates exhibit temperature, pH, and sulfide preferences typical of their habitat. Lipids produced by these isolates matched much better with mat lipids than do lipids produced by R. castenholzii or Chloroflexus isolates.We have investigated laminated cyanobacterial mats in alkaline siliceous hot springs of Yellowstone National Park (Octopus Spring and Mushroom Spring) as models for understanding principles of microbial community ecology (49, 51, 54) and as models of stromatolites (50, 55), which are important fossilized microbial communities of the Precambrian. These mats are dominated by unicellular cyanobacteria (Synechococcus spp.) and filamentous anoxygenic phototrophic bacteria (FAPs) (e.g., Chloroflexus spp. and Roseiflexus spp.); they also contain newly described anoxygenic phototrophic bacteria (8) and many organisms involved in mat decomposition (49). We have studied the composition and structure of the mat community using both nucleic acid and lipid biomarker approaches (50), as well as the functional contributions of and interactions among community members (34, 46, 47).A major finding from molecular analyses was that the predominant Synechococcus spp. of the mat are distantly related to readily cultivated strains (15, 49). Careful cultivation of predominant strains was necessary before we could observe phenotypic properties of Synechococcus sp. isolates that were useful for understanding the in situ ecology of native mat populations (2). Genomic analysis of relevant isolates has also vastly improved our ability to understand metagenomic Similarly, based on small-subunit rRNA (SSU rRNA) cloning and sequencing and fluorescent in situ hybridization (FISH) probing, the dominant FAPs of the community were found to be distantly related to readily cultivated Chloroflexus spp. but closely related to Roseiflexus castenholzii (35), a bacteriochlorophyll a-containing anoxygenic phototroph lacking chlorosomes, which was initially cultivated from a Japanese hot spring (20). Only one SSU rRNA sequence somewhat distantly related to that of Heliothrix oregonensis, the only ot...

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Cultivation and Genomic, Nutritional, and Lipid Biomarker Characterization of Roseiflexus Strains Closely Related to Predominant In Situ Populations Inhabiting Yellowstone Hot Spring Microbial Mats

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“…The activity of such phototrophs is, however, expected to be affected by the local oxygen concentration. For example, filamentous anoxygenic phototrophs (also known as green non-sulphur bacteria) can switch from sulphide-driven anoxygenic P to photoorganoheterotrophy or aerobic respiration when oxygen and cyanobacterial excudates are available in the light ( Van der Meer et al, 2005;Polerecky et al, 2007). Additionally, anaerobic anoxygenic phototrophs, such as green and purple sulphur bacteria, are expected to be poisoned by high oxygen concentrations (Van Gemerden and Mas, 1995).…”

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Structure and function of natural sulphide-oxidizing microbial mats under dynamic input of light and chemical energy

et al. 2015

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We studied the interaction between phototrophic and chemolithoautotrophic sulphide-oxidizing microorganisms in natural microbial mats forming in sulphidic streams. The structure of these mats varied between two end-members: one characterized by a layer dominated by large sulphur-oxidizing bacteria (SOB; mostly Beggiatoa-like) on top of a cyanobacterial layer (B/C mats) and the other with an inverted structure (C/B mats). C/B mats formed where the availability of oxygen from the water column was limited (o5 μM). Aerobic chemolithotrophic activity of the SOB depended entirely on oxygen produced locally by cyanobacteria during high light conditions. In contrast, B/C mats formed at locations where oxygen in the water column was comparatively abundant (445 μM) and continuously present. Here SOB were independent of the photosynthetic activity of cyanobacteria and outcompeted the cyanobacteria in the uppermost layer of the mat where energy sources for both functional groups were concentrated. Outcompetition of photosynthetic microbes in the presence of light was facilitated by the decoupling of aerobic chemolithotrophy and oxygenic phototrophy. Remarkably, the B/C mats conserved much less energy than the C/B mats, although similar amounts of light and chemical energy were available. Thus ecosystems do not necessarily develop towards optimal energy usage. Our data suggest that, when two independent sources of energy are available, the structure and activity of microbial communities is primarily determined by the continuous rather than the intermittent energy source, even if the time-integrated energy flux of the intermittent energy source is greater.

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“…Autotrophic CO 2 assimilation by the representatives of family Oscillochloridaceae is performed through the reductive pentose phosphate cycle (Berg et al, 2005;Ivanovsky et al, 1999;Turova et al, 2006). FAPs belonging to the family Roseiflexaceae are photo-organotrophs, and they do not grow photolithotrophically as pure cultures (Hanada et al, 2002), but it has been suggested that Roseiflexus is capable of growing photo-autotrophically in hot spring microbial mats (van der Meer et al, 2005(van der Meer et al, , 2010.…”

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Reconstruction of bacteriochlorophyll biosynthesis pathways in the filamentous anoxygenic phototrophic bacterium Oscillochloris trichoides DG-6 and evolution of anoxygenic phototrophs of the order Chloroflexales

et al. 2015

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It is commonly accepted that green filamentous anoxygenic phototrophic (FAP) bacteria are the most ancient representatives of phototrophic micro-organisms. Modern FAPs belonging to the order Chloroflexales are divided into two suborders: Chloroflexineae and Roseiflexineae. Representatives of Roseiflexineae lack chlorosomes and synthesize bacteriochlorophyll a, whereas those of Chloroflexineae synthesize bacteriochlorophylls a and c and utilize chlorosomes for light harvesting. Though they constitute a small number of species, FAPs are quite diverse in their physiology. This bacterial group includes autotrophs and heterotrophs, thermophiles and mesophiles, aerobes and anaerobes, occupying both freshwater and halophilic environments. The anaerobic mesophilic autotroph Oscillochloris trichoides DG-6 is still not well studied in its physiology, and its evolutionary origin remains unclear. The goals of this study included identification of the reaction centre type of O. trichoides DG-6, reconstruction of its bacteriochlorophyll biosynthesis pathways, and determination of its evolutionary relationships with other FAPs. By enzymic and genomic analysis, the presence of RCII in O. trichoides DG-6 was demonstrated and the complete gene set involved in biosynthesis of bacteriochlorophylls a and c was established. We found that the bacteriochlorophyll gene sets differed between aerobic and anaerobic FAPs. The aerobic FAP genomes code oxygen-dependent AcsF cyclases, but lack the bchQ/bchR genes, which have been associated with adaptation to low light conditions in the anaerobic FAPs. A scenario of evolution of FAPs belonging to the order Chloroflexales is proposed.

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Diel Variations in Carbon Metabolism by Green Nonsulfur-Like Bacteria in Alkaline Siliceous Hot Spring Microbial Mats from Yellowstone National Park

Cited by 94 publications

References 52 publications

Cultivation and Genomic, Nutritional, and Lipid Biomarker Characterization of Roseiflexus Strains Closely Related to Predominant In Situ Populations Inhabiting Yellowstone Hot Spring Microbial Mats

Cultivation and Genomic, Nutritional, and Lipid Biomarker Characterization of Roseiflexus Strains Closely Related to Predominant In Situ Populations Inhabiting Yellowstone Hot Spring Microbial Mats

Structure and function of natural sulphide-oxidizing microbial mats under dynamic input of light and chemical energy

Reconstruction of bacteriochlorophyll biosynthesis pathways in the filamentous anoxygenic phototrophic bacterium Oscillochloris trichoides DG-6 and evolution of anoxygenic phototrophs of the order Chloroflexales

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