The emerging molecular structure of the nitrogen cycle: an introduction to the proceedings of the 10th annual N-cycle meeting.

@article{Butler2005TheEM,
  title={The emerging molecular structure of the nitrogen cycle: an introduction to the proceedings of the 10th annual N-cycle meeting.},
  author={Clive S. Butler and David J. Richardson},
  journal={Biochemical Society transactions},
  year={2005},
  volume={33 Pt 1},
  pages={
          113-8
        }
}
Over the last 10 years, during the lifetime of the nitrogen cycle meetings, structural biology, coupled with spectroscopy, has had a major impact of our understanding enzymology of the nitrogen cycle. The three-dimensional structures for many of the key enzymes have now been resolved and have provided a wealth of information regarding the architecture of redox active metal sites, as well as revealing novel structural folds. Coupled with structure-based spectroscopic analysis, this has led to… 
View on PubMed
biochemsoctrans.org
18 Citations
Highly Influential Citations
1
Background Citations
6

Figures from this paper

18 Citations

Citation Type

Citation Type

Enzymology and ecology of the nitrogen cycle.
TLDR
A brief introduction to both the biochemical and ecological aspects of these processes are provided and how human activity over the last 100 years has changed the historic balance of the global nitrogen cycle is considered.
The geochemical record of the ancient nitrogen cycle, nitrogen isotopes, and metal cofactors.
Evolution of an octahaem cytochrome c protein family that is key to aerobic and anaerobic ammonia oxidation by bacteria.
TLDR
The proposed scenario of evolution of OCC proteins in the HAO family from NrfA is supported by homology based on sequence and structure, its wide distribution among bacterial taxa, the dedicated interaction with specific proteins, and it is congruent with geological history.
Advances in functional genes and molecular ecology in denitrifiers
TLDR
Recent investigations on functional genes and molecular ecology in denitrifiers have been summarized and important knowledge has been accumulated on using functional genes for molecular techniques in the case of denitrification.
Mitigating release of the potent greenhouse gas N(2)O from the nitrogen cycle - could enzymic regulation hold the key?
Genomics of Ammonica-Oxidizing Bacteria and Insights into Their Evolution
This chapter talks about ammonium-oxidizing bacteria (AOB), addresses the inventory involved in nitrification, attempts metabolic reconstruction of N transformation processes, and provides insights
Characterizing bacterial gene expression in nitrogen cycle metabolism with RT-qPCR.
Terrestrial N Cycling in an Endangered Oasis
In terrestrial arid ecosystems, one of the most limiting factors for productivity, following water, is thought to be nitrogen (N) availability. The N cycle can be summarized as an exchange of N forms
A review of stable isotope techniques for N2O source partitioning in soils: recent progress, remaining challenges and future considerations.
  • E. Baggs
  • Environmental Science
    Rapid communications in mass spectrometry : RCM
  • 2008
TLDR
The current state of the art of stable isotope techniques in source attribution of N(2)O is critically examined, remaining challenges are highlighted, and recommendations are made for future direction.
Living with Stress: A Lesson from the Enteric Pathogen Salmonella enterica.
...
1
2
...

References

SHOWING 1-10 OF 40 REFERENCES
Nitrogen cycle enzymology.
  • S. Ferguson
  • Chemistry
    Current opinion in chemical biology
  • 1998
Insights into the respiratory electron transfer pathway from the structure of nitrate reductase A
TLDR
The NarGHI structure identifies the number, coordination scheme and environment of the redox-active prosthetic groups, a unique coordination of the molybdenum atom, the first structural evidence for the role of an open bicyclic form of themolybdo-bis in the catalytic mechanism and a novel fold of the membrane anchor subunit.
Structural and redox plasticity in the heterodimeric periplasmic nitrate reductase
TLDR
A plasticity that contributes to an efficient electron transfer in the complex from the heme I of NapB to the molybdenum catalytic site of NapA is depicted and is interpreted in light of the three-dimensional structure.
The anatomy of a bifunctional enzyme: Structural basis for reduction of oxygen to water and synthesis of nitric oxide by cytochrome cd1
Haem-ligand switching during catalysis in crystals of a nitrogen-cycle enzyme
TLDR
The results show how redox energy can be switched into conformational energy within a haem protein within aHaem protein during catalysis.
The Structure of an Alternative Form ofParacoccus pantotrophus Cytochromecd 1 Nitrite Reductase*
TLDR
The structure of reduced nitrite reductase is described, crystallized under anaerobic conditions, and it is suggested that the rearrangement of the domains affects catalysis and substrate selectivity.
Crystallographic structure and functional implications of the nitrogenase molybdenum–iron protein from Azotobacter vinelandii
TLDR
The crystal structure of the nitrogenase molybdenum–iron protein from Azotobacter vinelandii has been determined and structural similarities are apparent between nitrogenase and other electron transfer systems, including hydrogenases and the photosynthetic reaction centre.
Crystal structure of the first dissimilatory nitrate reductase at 1.9 A solved by MAD methods.
Nitrogenase MoFe-Protein at 1.16 Å Resolution: A Central Ligand in the FeMo-Cofactor
TLDR
A high-resolution crystallographic analysis of the nitrogenase MoFe-protein reveals a previously unrecognized ligand coordinated to six iron atoms in the center of the catalytically essential FeMo-cofactor, consistent with this newly detected component being a light element, most plausibly nitrogen.
Architecture of NarGH reveals a structural classification of Mo-bisMGD enzymes.
...
1
2
3
4
...