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Sulfate reducing Bacteria
Sulfate reducing Bacteria
Polyhydroxyalkanoate (PHA) Accumulation in Sulfate-Reducing Bacteria and Identification of a Class III PHA Synthase (PhaEC) in Desulfococcus multivorans
Multidisciplinary / Identification / Escherichia coli / Applied / Anaerobic Bacteria / Applied Environmental Microbiology / Bacteria / Polymerase Chain Reaction / ATP synthase / Iron / Sulfate reducing Bacteria / Pseudomonas putida / Marine Sediment / DNA isolation / Organic carbon / Amino Acid Profile / Sulfate reduction / Dry Matter / Culture Media / Polyesters / Marine ecosystem / Organic Compound / Oxidation-Reduction / Sulfates / Molecular Sequence Data / Applied Environmental Microbiology / Bacteria / Polymerase Chain Reaction / ATP synthase / Iron / Sulfate reducing Bacteria / Pseudomonas putida / Marine Sediment / DNA isolation / Organic carbon / Amino Acid Profile / Sulfate reduction / Dry Matter / Culture Media / Polyesters / Marine ecosystem / Organic Compound / Oxidation-Reduction / Sulfates / Molecular Sequence Data
Polyhydroxyalkanoate (PHA) Accumulation in Sulfate-Reducing Bacteria and Identification of a Class III PHA Synthase (PhaEC) in Desulfococcus multivorans
Multidisciplinary / Identification / Escherichia coli / Applied / Anaerobic Bacteria / Applied Environmental Microbiology / Bacteria / Polymerase Chain Reaction / ATP synthase / Iron / Sulfate reducing Bacteria / Pseudomonas putida / Marine Sediment / DNA isolation / Organic carbon / Amino Acid Profile / Sulfate reduction / Dry Matter / Culture Media / Polyesters / Marine ecosystem / Organic Compound / Oxidation-Reduction / Sulfates / Molecular Sequence Data / Applied Environmental Microbiology / Bacteria / Polymerase Chain Reaction / ATP synthase / Iron / Sulfate reducing Bacteria / Pseudomonas putida / Marine Sediment / DNA isolation / Organic carbon / Amino Acid Profile / Sulfate reduction / Dry Matter / Culture Media / Polyesters / Marine ecosystem / Organic Compound / Oxidation-Reduction / Sulfates / Molecular Sequence Data
Aprovechamiento de los ambientes reducidos para la producción de organismos acuáticos susceptibles a cultivo, para el consumo humano Reduced environments for production of culture susceptible aquatic organisms for human consumption
Heavy Metal / Chemical Analysis / Sulfate reducing Bacteria / Nutritional Quality / Genetic analysis for qualitative and quantitative traits of crop plants
In silico approaches to study mass and energy flows in microbial consortia: a syntrophic case study
Network Analysis / A Priori Knowledge / Energy Metabolism / Nitrogen Fixation / Yellowstone National Park / Circadian Rhythm / Case Study / Wyoming / Sulfate reducing Bacteria / Enzyme / Ecosystem / Pathway Analysis / Synechococcus / Relative Abundance / Species Specificity / In Silico / Microbial community / Circadian Rhythm / Case Study / Wyoming / Sulfate reducing Bacteria / Enzyme / Ecosystem / Pathway Analysis / Synechococcus / Relative Abundance / Species Specificity / In Silico / Microbial community
Hydrogen peroxide-induced oxidative stress responses in Desulfovibrio vulgaris Hildenborough
Genetics / Microbiology / Environmental microbiology / Network Analysis / Oxidative Stress / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / Redox Potential / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / Redox Potential
Hydrogen-peroxide-induced oxidative stress responses in Desulfovibrio vulgaris Hildenborough
Genetics / Microbiology / Environmental microbiology / Network Analysis / Oxidative Stress / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / Redox Potential / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / Redox Potential
Hydrogen peroxide-induced oxidative stress responses in Desulfovibrio vulgaris Hildenborough
Genetics / Microbiology / Environmental microbiology / Network Analysis / Oxidative Stress / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants
Hydrogen peroxide-induced oxidative stress responses in Desulfovibrio vulgaris Hildenborough
Genetics / Microbiology / Environmental microbiology / Network Analysis / Oxidative Stress / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants / DNA repair / Gene expression / Molecular Mechanics / Protein synthesis / Signal Transduction / Stress response / Detoxification / Sulfate reducing Bacteria / Hydrogen Peroxide / Cellular Automaton Model / Thioredoxin / Sulfate reduction / Proteome / Environmental / Sulphate Reducing Bacteria / Oxidants
A Role for Microbial Palladium Nanoparticles in Extracellular Electron Transfer
Bioelectrochemistry / Catalysis / Microbial Fuel Cells / Nanoparticles / Metal Nanoparticles / Sulfate reducing Bacteria / Electron Transport / Palladium / CHEMICAL SCIENCES / Applied Microbiology and Biotechnology / Hydrogenase / Electrodes / Oxidation-Reduction / Hydrogenases / Desulfovibrio / Sulfate reducing Bacteria / Electron Transport / Palladium / CHEMICAL SCIENCES / Applied Microbiology and Biotechnology / Hydrogenase / Electrodes / Oxidation-Reduction / Hydrogenases / Desulfovibrio
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