Nitrogenase activity in extracts of heterocystous and non-heterocystous blue-green algae
Copyright policy )Nitrogenase activity in extracts of heterocystous and non-heterocystous blue-green algae
Cell-free extracts capable of acetylene reduction and cyanide reduction have been prepared from heterocystous (Anabaena cylindrica) and non-heterocystous (Plectonema boryanum 594) blue-green algae. Extracts from Anabaena were obtained from cultures grown in blulk under aerobic conditions, while the Plectonema cultures were grown in bulk on nitrate-nitrogen, then washed free from nitrate and sparged with A/CO2 for 40 h after which time maximum nitrogenase activity was detected. The nitrogenases of both algae are similar and resemble in many respects nitrogenases from bacteria and legumes. Activity is located primarily in a 40,000xgx15 min supernatant fraction and the rate of C2H2 reduction observed is about 10 per cent of whole cell activity. ATP and a source of reducing power (Na2S2O4) are required for efficient functioning of the enzyme. ATP-dependent hydrogen evolution occurs, the extracts are cold labile and highly sensitive to oxygen and the oxygen inhibition is irreversible.
- University of Dundee United Kingdom
Chromatography, Gas, Cyanides, Nitrates, Cell-Free System, Acetylene, Nitrogen, Sulfates, Sodium, Temperature, Cyanobacteria, Vibration, Culture Media, Oxygen, Adenosine Triphosphate, Nitrogen Fixation, Magnesium, Oxidoreductases, Oxidation-Reduction, Hydrogen
Chromatography, Gas, Cyanides, Nitrates, Cell-Free System, Acetylene, Nitrogen, Sulfates, Sodium, Temperature, Cyanobacteria, Vibration, Culture Media, Oxygen, Adenosine Triphosphate, Nitrogen Fixation, Magnesium, Oxidoreductases, Oxidation-Reduction, Hydrogen
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