Litcius/Paper detail

Metabolic Model of the Nitrogen-Fixing Obligate Aerobe Azotobacter vinelandii Predicts Its Adaptation to Oxygen Concentration and Metal Availability

Alexander B. Alleman, Florence Mus, John W. Peters

2021mBio38 citationsDOIOpen Access PDF

Abstract

The world's dependence on industrially produced nitrogenous fertilizers has created a dichotomy of issues. First, parts of the globe lack access to fertilizers, leading to poor crop yields that significantly limit nutrition while contributing to disease and starvation. In contrast, abundant nitrogenous fertilizers and associated overuse in large agricultural systems result in compromised soil quality and downstream environmental issues. Thus, there is considerable interest in expanding the impacts of BNF to promote improved crop yields in places struggling with access to industrial fertilizers while reducing fertilizer input in areas where overuse results in the degradation of soil health. A more robust and fundamental understanding of BNF biochemistry and microbial physiology will enable strategies to promote new and more robust associations between nitrogen-fixing microorganisms and crop plants.

Topics & Concepts

Azotobacter vinelandiiNitrogenaseNitrogen fixationElectron transport chainCellular respirationFlux balance analysisOxygenBiophysicsChemistryDiazotrophBiochemistryBiologyNitrogenMitochondrionOrganic chemistryWastewater Treatment and Nitrogen RemovalMetalloenzymes and iron-sulfur proteinsMicrobial Fuel Cells and Bioremediation