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Leptothrix (bacterium)
Response of Heterotrophic Stream Biofilm Communities to a Gradient of Resources
Sites in the Virginia-Washington, D.C.-Maryland Metro Area to Observe Or Collect Bacteria That Precipitate Iron and Manganese Oxides1
Understanding the Molecular Mechanism of Manganese
Discovery of Sheath-Forming, Iron-Oxidizing Zetaproteobacteria at Loihi Seamount, Hawaii, USA Emily J
Diversity of Aerobic Anoxygenic Phototrophs and Rhodopsin-Containing Bacteria in the Surface Microlayer, Water Column and Epilithic Biofilms of Lake Baikal
Occurrence of Manganese-Oxidizing Microorganisms and Manganese Deposition During Bio¢Lm Formation on Stainless Steel in a Brackish Surface Water
Increased Abundance of Gallionella Spp., Leptothrix Spp. and Total
Unraveling the Stratification of an Iron-Oxidizing Microbial Mat by Metatranscriptomics
Gene Transfers from Diverse Bacteria Compensate for Reductive Genome Evolution in the Chromatophore of Paulinella Chromatophora
Ochracea Using Single Cell Genomics, Pyrosequencing and FISH
Perspectives on the Biogenesis of Iron Oxide Complexes Produced by Leptothrix, an Iron-Oxidizing Bacterium and Promising Industr
The Discs of Leptothrix Discophora: Lost for 89 Years?
Silicon-Rich, Iron Oxide Microtubular Sheath Produced by an Iron-Oxidizing Bacterium, Leptothrix Sp. Strain OUMS1, in Culture
Silicon-Rich, Iron Oxide Microtubular Sheath Produced by an Iron-Oxidizing Bacterium, Leptothrix Sp. Strain OUMS1, in Culture
Caenibacterium Thermophilum Gen. Nov., Sp. Nov., Isolated from a Thermophilic Aerobic Digester of Municipal Sludge
Supplementary Information
A Novel Method for Culturing of Leptothrix Sp. Strain OUMS1 in Natural Conditions
Oxidizing Bacteria Are Prevalent in Drinking Water Systems
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A Model for Sheath Formation Coupled to Motility in Leptothrix Ochracea