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Keyword [Nitrogenase]
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1. Density Functional Calculations On Selected Bio-Related Systems
2. Photoproduction Of Hydrogen By Rhodobacter Sphaeroides
3. Influences Of Associated Pollution Of Cd~(2+) And Acetochlor On The Community And Bioactivities Of Free-living Diazotrophs In Upland Soil
4. Theoretical Study On The Model Compounds Of Metalloenzymes
5. The Synthesis Of Cyclopentadienyl Diazido Diiron Fe-S Cluster
6. Cloning, Expression, Purification And Preliminary Crystallographic Analysis Of Mj. Nifh1 And Sc. Ndl1
7. Theoretical Research Of Vinyl Chloride Non-mercury Catalysts Based On Redutcase Theoretical Model
8. Construction Of Thiolate-bridged Dimetallic Complexes And Their Application In The Biomimetic Chemical Simulation Of Metalloenzymes
9. Phytolectin Affinity Of Azotobacter Chroococcum And Its Mutagenesis Of Atmospheric Pressure Room Temperature Plasma
10. Ligand Replacement—An Efficient Strategy For Synthesizing Iron-sulfur Clusters Of Nitrogenase-related Heteroligands
11. The function of NifEN in nitrogenase catalysis and assembly
12. Role of ATP hydrolysis and mechanism of substrate reduction in nitrogenas
13. Substrate binding and reduction mechanism of molybdenum nitrogenas
14. Exploration of weak-field iron-nitrogen clusters: Nitrogenase-inspired synthetic inorganic chemistry
15. Iron-imide and iron-imide-sulfide clusters: First generation synthetic model compounds of the nitrogenase active site
16. Studies on the regulatory mechanisms controlling nitrogenase synthesis and ammonia assimilation in Azotobacter vinelandii and Sinorhizobium meliloti
17. Electron transfer reactions and the role of MgATP hydrolysis in nitrogenase catalysis
18. Cubane-type iron(4)Q(4) (Q = sulfur, selenium) clusters and relevance to the metal centers of sulfite reductase, nickel-iron hydrogenase, and nitrogenase
19. Synthesis and characterization of iron complexes of tris-thiolate phosphine tripod ligands as models of the FeS(3) centers of nitrogenase and the Fe(CO)(CN)2 center of hydrogenase
20. Cooperative"Metal-Ligand" Strategy In Hydrogenase And Nitrogenase Synthetic Models
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