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Sulfate reduction
Sulfate reduction
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
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
Influence of sea level rise on iron diagenesis in an east Florida subterranean estuary
Geology / Geochemistry / Sea level rise / Surface Water / Iron / Primary Production / Marine Sediment / Submarine Groundwater Discharge / Flow Rate / Sulfate reduction / Primary Production / Marine Sediment / Submarine Groundwater Discharge / Flow Rate / Sulfate reduction
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
Metanogénesis y metano-oxidación en humedales. Implicaciones en el ciclo del carbono global
Methane / Water Table / Greenhouse Gas / Soil Temperature / Greenhouse Effect / Methane Oxidation / Coastal Wetlands / Sulfate reduction / Organic Matter / Methane Oxidation / Coastal Wetlands / Sulfate reduction / Organic Matter
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