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- Archaeal Electron Transfer Chains
- Hydrogen Is a Preferred Intermediate in the Energy-Conserving Electron Transport Chain of Methanosarcina Barkeri
- Reductive Dissolution of Pyrite by Methanogenic Archaea
- Methanosarcina Barkeri
- Extracellular Electron Uptake in Methanosarcinales Is Independent of Multiheme C-Type Cytochromes Mon Oo Yee & Amelia-Elena Rotaru*
- Remembering Otto Kandler (1920–2017) and His Contributions
- Interactions Between Anaerobic Fungi and Methanogens in the Rumen and Their Biotechnological Potential in Biogas Production from Lignocellulosic Materials
- Anaerobic Growth of Methanosarcina Acetivorans C2A on Carbon Monoxide: an Unusual Way of Life for a Methanogenic Archaeon
- Anaerobic Respiration Pathways and Response to Increased Substrate Availability of Arctic Wetland Soils
- Baltic Sea Methanogens Compete with Acetogens for Electrons from Metallic Iron
- Extracellular Electron Uptake in Methanosarcinales Is Independent of Multiheme
- Chasing the Elusive Euryarchaeota Class WSA2: Genomes Reveal a Uniquely Fastidious Methyl- Reducing Methanogen
- Methanogens, Plausible Extraterrestrial Life Forms on Mars, and Their Tolerance to Increasing Concentrations of Illite Clay Chandler Kern
- Carbon Source-Dependent Expansion of the Genetic Code in Bacteria
- Discovery of Methanogenic Haloarchaea
- Methanogens from Siberian Permafrost As Models for Life on Mars
- Functional Context, Biosynthesis, and Genetic Encoding of Pyrrolysine Marsha a Gaston1, Ruisheng Jiang2 and Joseph a Krzycki1,2
- Stress Response of Methanogenic Archaea from Siberian Permafrost Compared with Methanogens from Nonpermafrost Habitats Daria Morozova & Dirk Wagner
- Energy Conservation by a Hydrogenase-Dependent Chemiosmotic Mechanism in an Ancient Metabolic Pathway
- Trace Methane Oxidation Studied in Several Euryarchaeota Under Diverse Conditions
- Directed Evolution of the Methanosarcina Barkeri Pyrrolysyl Trna/Aminoacyl Trna Synthetase Pair for Rapid Evaluation of Sense Codon Reassignment Potential
- Methanosarcina Barkeri MST and 227, Methanosarcina Mazei S-6T, and Methanosarcina Vacuolata Z-76IT GLORIA M
- Responses of Methanosarcina Barkeri to Acetate Stress Pinjing He1,2,3, Haowen Duan1, Wenhao Han1, Yang Liu1, Liming Shao1,2,3 and Fan Lü1,3*
- Professor Dr Dr H.C. Mult. Otto Kandler: Distinguished Botanist And
- Hydrogen Is a Preferred Intermediate in the Energy-Conserving Electron Transport Chain of Methanosarcina Barkeri
- An Aminoacyl-Trna Synthetase That Specifically Activates Pyrrolysine
- Transcriptional Response to Prolonged Perchlorate Exposure in the Methanogen Methanosarcina Barkeri and Implications for Martian Habitability Rachel L
- Fusaro and Methanosarcina Acetivorans C2A
- Genetic Analysis of the Archaeon Methanosarcina Barkeri Fusaro Reveals a Central Role for Ech Hydrogenase and Ferredoxin in Methanogenesis and Carbon Fixation