Relevant bibliographies by topics / Aerobic anoxygenic phototrophic bacteria

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Academic literature on the topic 'Aerobic anoxygenic phototrophic bacteria'

Author: Grafiati
Published: 2 June 2025
Last updated: 19 July 2025

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Journal articles on the topic "Aerobic anoxygenic phototrophic bacteria"

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Eiler, Alexander, Sara Beier, Christin S�wstr�m, Jan Karlsson, and Stefan Bertilsson. "High Ratio of Bacteriochlorophyll Biosynthesis Genes to Chlorophyll Biosynthesis Genes in Bacteria of Humic Lakes." Applied and Environmental Microbiology 75, no. 22 (2009): 7221–28. http://dx.doi.org/10.1128/aem.00960-09.

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ABSTRACT Recent studies highlight the diversity and significance of marine phototrophic microorganisms such as picocyanobacteria, phototrophic picoeukaryotes, and bacteriochlorophyll- and rhodopsin-holding phototrophic bacteria. To assess if freshwater ecosystems also harbor similar phototroph diversity, genes involved in the biosynthesis of bacteriochlorophyll and chlorophyll were targeted to explore oxygenic and aerobic anoxygenic phototroph composition in a wide range of lakes. Partial dark-operative protochlorophyllide oxidoreductase (DPOR) and chlorophyllide oxidoreductase (COR) genes in
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Yurkov, Vladimir V., and J. Thomas Beatty. "Aerobic Anoxygenic Phototrophic Bacteria." Microbiology and Molecular Biology Reviews 62, no. 3 (1998): 695–724. http://dx.doi.org/10.1128/mmbr.62.3.695-724.1998.

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SUMMARY The aerobic anoxygenic phototrophic bacteria are a relatively recently discovered bacterial group. Although taxonomically and phylogenetically heterogeneous, these bacteria share the following distinguishing features: the presence of bacteriochlorophyll a incorporated into reaction center and light-harvesting complexes, low levels of the photosynthetic unit in cells, an abundance of carotenoids, a strong inhibition by light of bacteriochlorophyll synthesis, and the inability to grow photosynthetically under anaerobic conditions. Aerobic anoxygenic phototrophic bacteria are classified i
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Messner, Katia, and Vladimir Yurkov. "Abundance, Characterization and Diversity of Culturable Anoxygenic Phototrophic Bacteria in Manitoban Marshlands." Microorganisms 12, no. 5 (2024): 1007. http://dx.doi.org/10.3390/microorganisms12051007.

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Marshes are an important ecosystem, acting as a biodiversity hotspot, a carbon sink and a bioremediation site, breaking down anthropogenic waste such as antibiotics, metals and fertilizers. Due to their participation in these metabolic activities and their capability to contribute to primary productivity, the microorganisms in such habitats have become of interest to investigate. Since Proteobacteria were previously found to be abundant and the waters are well aerated and organic-rich, this study on the presence of anoxygenic phototrophic bacteria, purple non-sulfur bacteria and aerobic anoxyg
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Imhoff, Johannes F., Tanja Rahn, Sven Künzel, and Sven C. Neulinger. "Phylogeny of Anoxygenic Photosynthesis Based on Sequences of Photosynthetic Reaction Center Proteins and a Key Enzyme in Bacteriochlorophyll Biosynthesis, the Chlorophyllide Reductase." Microorganisms 7, no. 11 (2019): 576. http://dx.doi.org/10.3390/microorganisms7110576.

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Photosynthesis is a key process for the establishment and maintenance of life on earth, and it is manifested in several major lineages of the prokaryote tree of life. The evolution of photosynthesis in anoxygenic photosynthetic bacteria is of major interest as these have the most ancient roots of photosynthetic systems. The phylogenetic relations between anoxygenic phototrophic bacteria were compared on the basis of sequences of key proteins of the type-II photosynthetic reaction center, including PufLM and PufH (PuhA), and a key enzyme of bacteriochlorophyll biosynthesis, the light-independen
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ZHANG, Yao. "Method for quantification of aerobic anoxygenic phototrophic bacteria." Chinese Science Bulletin 49, no. 6 (2004): 597. http://dx.doi.org/10.1360/03wc0447.

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Cottrell, Matthew T., Antonio Mannino, and David L. Kirchman. "Aerobic Anoxygenic Phototrophic Bacteria in the Mid-Atlantic Bight and the North Pacific Gyre." Applied and Environmental Microbiology 72, no. 1 (2006): 557–64. http://dx.doi.org/10.1128/aem.72.1.557-564.2006.

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ABSTRACT The abundance of aerobic anoxygenic phototrophic (AAP) bacteria, cyanobacteria, and heterotrophs was examined in the Mid-Atlantic Bight and the central North Pacific Gyre using infrared fluorescence microscopy coupled with image analysis and flow cytometry. AAP bacteria comprised 5% to 16% of total prokaryotes in the Atlantic Ocean but only 5% or less in the Pacific Ocean. In the Atlantic, AAP bacterial abundance was as much as 2-fold higher than that of Prochlorococcus spp. and 10-fold higher than that of Synechococcus spp. In contrast, Prochlorococcus spp. outnumbered AAP bacteria 5
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Lamy, D., C. Jeanthon, J. Ras, et al. "Ecology of aerobic anoxygenic phototrophic bacteria along an oligotrophic gradient in the Mediterranean Sea." Biogeosciences Discussions 8, no. 1 (2011): 323–54. http://dx.doi.org/10.5194/bgd-8-323-2011.

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Abstract. Aerobic anoxygenic phototrophic (AAP) bacteria are photoheterotrophic prokaryotes able to use both light and organic substrates for energy production. They are widely distributed in coastal and oceanic environments and may contribute significantly to the carbon cycle in the upper ocean. To better understand questions regarding links between the ecology of these photoheterotrophic bacteria and the trophic status of water masses, we examined their horizontal and vertical distribution and the effects of nutrient additions on their growth along an oligotrophic gradient in the Mediterrane
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Lamy, D., C. Jeanthon, M. T. Cottrell, et al. "Ecology of aerobic anoxygenic phototrophic bacteria along an oligotrophic gradient in the Mediterranean Sea." Biogeosciences 8, no. 4 (2011): 973–85. http://dx.doi.org/10.5194/bg-8-973-2011.

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Abstract. Aerobic anoxygenic phototrophic (AAP) bacteria are photoheterotrophic prokaryotes able to use both light and organic substrates for energy production. They are widely distributed in coastal and oceanic environments and may contribute significantly to the carbon cycle in the upper ocean. To better understand questions regarding links between the ecology of these photoheterotrophic bacteria and the trophic status of water masses, we examined their horizontal and vertical distribution and the effects of nutrient additions on their growth along an oligotrophic gradient in the Mediterrane
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Yutin, Natalya, Marcelino T. Suzuki, and Oded Béjà. "Novel Primers Reveal Wider Diversity among Marine Aerobic Anoxygenic Phototrophs." Applied and Environmental Microbiology 71, no. 12 (2005): 8958–62. http://dx.doi.org/10.1128/aem.71.12.8958-8962.2005.

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ABSTRACT Aerobic anoxygenic phototrophic bacteria (AAnPs) were previously proposed to account for up to 11% of marine bacterioplankton and to potentially have great ecological importance in the world's oceans. Our data show that previously used primers based on the M subunit of anoxygenic photosynthetic reaction center genes (pufM) do not comprehensively identify the diversity of AAnPs in the ocean. We have designed and tested a new set of pufM-specific primers and revealed several new AAnP variants in environmental DNA samples and genomic libraries.
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Zhang, Yongyu, та Nianzhi Jiao. "Roseophage RDJLΦ1, Infecting the Aerobic Anoxygenic Phototrophic Bacterium Roseobacter denitrificans OCh114". Applied and Environmental Microbiology 75, № 6 (2009): 1745–49. http://dx.doi.org/10.1128/aem.02131-08.

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ABSTRACT A marine roseophage RDJLΦ1 lytically infecting Roseobacter denitrificans OCh114 was isolated and characterized. RDJLΦ1 can package several host cellular proteins into its virions, and its DNA is refractory to several commonly used restriction enzymes. This paper presents the first report of a bacteriophage isolated from the aerobic anoxygenic phototrophic bacteria.
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Dissertations / Theses on the topic "Aerobic anoxygenic phototrophic bacteria"

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Waidner, Lisa A. "Abundance, diversity, and distribution of aerobic anoxygenic phototrophic bacteria in the Delaware estuary." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file, 219 p, 2007. http://proquest.umi.com/pqdweb?did=1362525071&sid=2&Fmt=2&clientId=8331&RQT=309&VName=PQD.

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Asao, Marie. "Diversity of anoxygenic phototrophic bacteria in alkaline environments /." Available to subscribers only, 2008. http://proquest.umi.com/pqdweb?did=1650504121&sid=12&Fmt=2&clientId=1509&RQT=309&VName=PQD.

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Thesis (Ph.D.)--Southern Illinois University Carbondale, 2008.<br>"Department of Molecular Biology, Microbiology and Biochemistry." Includes bibliographical references (p. 155-172). Also available online.
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Sun, Min [Verfasser]. "Investigation on the production of secondary metabolites from anoxygenic phototrophic bacteria. / Min Sun." Kiel : Universitätsbibliothek Kiel, 2016. http://d-nb.info/1084634139/34.

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Cardoso, Maria Inês Dias 1987. "Diversity of aerobic anoxygenic phototrophic bacteria in microphytobenthic biofils from Tagus estuary." Master's thesis, 2013. http://hdl.handle.net/10451/9483.

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Tese de mestrado. Biologia (Microbiologia Aplicada). Universidade de Lisboa, Faculdade de Ciências, 2013<br>Aerobic anoxygenic phototrophic bacteria (AAnPB) are primarily heterotrophic organisms capable of harvesting light energy using photosynthetic reaction centres composed of bacteriochlorophyll a (BChl a), that in contrast to the related purple photosynthetic bacteria are unable to use the light for anaerobic growth and require oxygen to respire organic compounds, which are essential for growth. This functional group is present in many habitats and seems to be very abundant in estuarine wa
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Ritchie, Anna E. "Distributions and diversity of aerobic anoxygenic phototrophic bacteria along onshore offshore transects near Pacific Islands." Thesis, 2008. http://hdl.handle.net/10125/20791.

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Csotonyi, Julius Thomas. "Anoxygenic photosynthetic communities and heavy element transformations in extreme environments: hydrothermal and hypersaline ecosystems." 2011. http://hdl.handle.net/1993/4387.

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The current research project investigated the anoxygenic phototrophic and metal(loid) transforming bacteria of hypersaline and deep ocean hydrothermal environments. The East German Creek brine springs, an unusual flowing hypersaline system, was enumerated using classical techniques. Subterranean sulfide supported purple sulfur and nonsulfur bacteria, but at the highly oxygenated surface, aerobic anoxygenic phototrophs (AAP) were numerically dominant (up to 16-36% of cultivable bacteria). Strains (EG8, EG13, EG17, EG19) with unusual phylogenetic affiliation and novel photosynthetic and metal(lo
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Tran, Nhu-Hoa [Verfasser]. "New organic substrates for anoxygenic phototrophic bacteria / vorgelegt von Tran Nhu Hoa." 2008. http://d-nb.info/989222128/34.

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"Genome Sequencing and Analysis of the Psychrophilic Anoxygenic Phototrophic Bacterium Rhodoferax antarcticus sp. ANT.BR." Master's thesis, 2011. http://hdl.handle.net/2286/R.I.9451.

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abstract: Rhodoferax antarcticus strain ANT.BR, a purple nonsulfur bacterium isolated from a microbial mat in Ross Island, Antarctica, is the first described anoxygenic phototrophic bacterium that is adapted to cold habitats and is the first beta-proteobacterium to undergo complete genome sequencing. R. antarcticus has unique absorption spectra and there are no obvious intracytoplasmic membranes in cells grown phototrophically, even under low light intensity. Analysis of the finished genome sequence reveals a single chromosome (3,809,266 bp) and a large plasmid (198,615 bp) that together harbo
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Rathgeber, Christopher. "Diversity of the aerobic phototrophic and heavy metalloid reducing bacteria : perspectives gained from the study of novel isolates." 2007. http://hdl.handle.net/1993/20977.

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Books on the topic "Aerobic anoxygenic phototrophic bacteria"

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Kirchman, David L. Microbial primary production and phototrophy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0006.

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This chapter is focused on the most important process in the biosphere, primary production, the turning of carbon dioxide into organic material by higher plants, algae, and cyanobacteria. Photosynthetic microbes account for roughly 50% of global primary production while the other half is by large, terrestrial plants. After reviewing the basic physiology of photosynthesis, the chapter discusses approaches to measuring gross and net primary production and how these processes affect fluxes of oxygen and carbon dioxide into and out of aquatic ecosystems. It then points out that terrestrial plants
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Kirchman, David L. Processes in anoxic environments. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0011.

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During organic material degradation in oxic environments, electrons from organic material, the electron donor, are transferred to oxygen, the electron acceptor, during aerobic respiration. Other compounds, such as nitrate, iron, sulfate, and carbon dioxide, take the place of oxygen during anaerobic respiration in anoxic environments. The order in which these compounds are used by bacteria and archaea (only a few eukaryotes are capable of anaerobic respiration) is set by thermodynamics. However, concentrations and chemical state also determine the relative importance of electron acceptors in or
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Book chapters on the topic "Aerobic anoxygenic phototrophic bacteria"

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Yurkov, Vladimir, and Julius T. Csotonyi. "New Light on Aerobic Anoxygenic Phototrophs." In The Purple Phototrophic Bacteria. Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-1-4020-8815-5_3.

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Imhoff, Johannes F., Akira Hiraishi, and Jörg Süling. "Anoxygenic Phototrophic Purple Bacteria." In Bergey’s Manual® of Systematic Bacteriology. Springer US, 2005. http://dx.doi.org/10.1007/0-387-28021-9_15.

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Frigaard, Niels-Ulrik. "Biotechnology of Anoxygenic Phototrophic Bacteria." In Advances in Biochemical Engineering/Biotechnology. Springer International Publishing, 2016. http://dx.doi.org/10.1007/10_2015_5006.

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Imhoff, Johannes F. "Systematics of Anoxygenic Phototrophic Bacteria." In Sulfur Metabolism in Phototrophic Organisms. Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-1-4020-6863-8_14.

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Imhoff, Johannes F. "Anoxygenic Phototrophic Bacteria from Extreme Environments." In Modern Topics in the Phototrophic Prokaryotes. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-46261-5_13.

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Imhoff, J. F. "A Phylogenetically Oriented Taxonomy of Anoxygenic Phototrophic Bacteria." In The Phototrophic Prokaryotes. Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4827-0_89.

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Yurkov, Vladimir, and Elizabeth Hughes. "Aerobic Anoxygenic Phototrophs: Four Decades of Mystery." In Modern Topics in the Phototrophic Prokaryotes. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-46261-5_6.

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Imhoff, Johannes F. "Diversity of Anaerobic Anoxygenic Phototrophic Purple Bacteria." In Modern Topics in the Phototrophic Prokaryotes. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-46261-5_2.

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Csotonyi, Julius T., Jolantha Swiderski, Erko Stackebrandt, and Vladimir Yurkov. "A New Extreme Environment for Aerobic Anoxygenic Phototrophs: Biological Soil Crusts." In Recent Advances in Phototrophic Prokaryotes. Springer New York, 2010. http://dx.doi.org/10.1007/978-1-4419-1528-3_1.

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Hurse, Timothy J., Ulrike Kappler, and Jürg Keller. "Using Anoxygenic Photosynthetic Bacteria for the Removal of Sulfide from Wastewater." In Sulfur Metabolism in Phototrophic Organisms. Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-1-4020-6863-8_22.

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Conference papers on the topic "Aerobic anoxygenic phototrophic bacteria"

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Nikeleit, Verena, Marcus Schneider, Savinja Gruss, Casey Bryce, Frank Keppler, and Andreas Kappler. "Methane production by anoxygenic phototrophic Fe(II)-oxidizing bacteria." In Goldschmidt2023. European Association of Geochemistry, 2023. http://dx.doi.org/10.7185/gold2023.16748.

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Kuzyk, Steven, Vladimir Yurkov, Jocelyn Plouffe, Xiao Ma, and Kaitlyn Wiens. "Aerobic Anoxygenic Phototrophic Metal Transformations Associated with Dreissena polymorpha." In Goldschmidt2021. European Association of Geochemistry, 2021. http://dx.doi.org/10.7185/gold2021.4776.

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