Corpus ID: 28322962

The nitrogen-fixing system of Corynebacterium autotrophicum. Purification and properties of the nitrogenase components and two ferredoxins.

@article{Berndt1978TheNS,
  title={The nitrogen-fixing system of Corynebacterium autotrophicum. Purification and properties of the nitrogenase components and two ferredoxins.},
  author={H. Berndt and David J. Lowe and M. Geoffrey Yates},
  journal={European journal of biochemistry},
  year={1978},
  volume={86 1},
  pages={
          133-42
        }
}
Ambient nitrogen reduction cycle using a hybrid inorganic–biological system
TLDR
This work demonstrates the synthesis of NH3 from N2 and H2O at ambient conditions in a single reactor by coupling hydrogen generation from catalytic water splitting to a H2-oxidizing bacterium Xanthobacter autotrophicus, which performs N 2 and CO2 reduction to solid biomass. Expand
Aspects of nitrogen-fixing Actinobacteria, in particular free-living and symbiotic Frankia.
TLDR
Recent genomic sequencing data of Frankia represent genomes from cluster I to IV, indicating that the genome of DgI is one of the smallest genomes in Frankia, and the involvement of isoflavonoids as signal molecules during nodulation of an actinorhizal plant was shown. Expand
Phylogenetic perspectives of nitrogen-fixing actinobacteria
TLDR
A phylogenetic comparison of nitrogen fixation gene (nifH) is presented with the aim of elucidating the processes underlying the evolutionary history of this catalytic ability among actinobacteria. Expand
Nitrogen metabolism in Xanthobacter H4-14
TLDR
N2-fixation was investigated in the chemoautotrophic hydrogen bacterium Xanthobacter H4-14, and ammonia was assimilated exclusively via the glutamine synthetase/glutamate synthase pathway, irrespective of the extracellular concentration of ammonia. Expand