Effect of the Availability of the Source of Nitrogen and Phosphorus in the Bio-Oxidation of H2S by Sulfolobus metallicus

The effect of nitrogen and phosphorus availability on the growth of Sulfolobus metallicus was analyzed. This archaeon was subjected to a series of nitrogen and phosphorus limitation conditions to determine their effects on growth. The results indicate that Sulfolobus metallicus showed a relationship...

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Bibliographic Details
Published in:Fermentation (Basel) 2023-04, Vol.9 (5), p.406
Main Authors: Silva, Javier, Ortiz-Soto, Rodrigo, Morales, Marjorie, Aroca, Germán
Format: Article
Language:English
Subjects:
Biomass
Energy
Gene expression
Genetic engineering
Growth rate
Hydrogen sulfide
Metabolism
Metabolites
Microorganisms
Morphology
Nitrogen
Nutrients
nutrients limitation
Oxidation
Phosphorus
Sulfolobus metallicus
Sulfur
Sulfur compounds
Tetrathionate
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Summary:The effect of nitrogen and phosphorus availability on the growth of Sulfolobus metallicus was analyzed. This archaeon was subjected to a series of nitrogen and phosphorus limitation conditions to determine their effects on growth. The results indicate that Sulfolobus metallicus showed a relationship between one of the intermediate oxidation products (tetrathionate) and cell concentration during the exponential growth phase in the absence of nitrogen. Furthermore, significant differences were found in the specific growth rates under different scenarios with ammonia and phosphorus limitation, with values of 0.048 h−1 in the ammonia limitation case. The biomass substrate yield obtained was 0.107 gcel·g S−1. Meanwhile, in the absence of phosphorus, the specific growth rate was 0.017 h−1, and the substrate to biomass yield was 0.072 gcel·g S−1. The results indicate that the ability of Sulfolobus metallicus to bio-oxidize H2S depends on the availability of such nutrients (nitrogen and phosphorus), which affect cellular growth and the types of products generated. This, in turn, influences the oxidation process of various sulfur compounds, resulting in changes in the predominant products formed and the final oxidation of sulfate ions.
ISSN:2311-5637
2311-5637
DOI:10.3390/fermentation9050406