Mechanism of the Enzymic Reduction of N_2: The Binding of Adenosine 5'-Triphosphate and Cyanide to the N_2-reducing System
- Creators
- Bui, P. T.
- Mortenson, L. E.
Abstract
The in vitro reduction of N_2 is a complex process involving at least six different reactants: two proteins [1,2] for which the names azoferredoxin (AzoFd) and molybdoferredoxin (MoFd) have been proposed[3], an electron source, the electron acceptor, ATP[4], and Mg2+[5-7]. One of the goals of research in this area is to define the orderly and quantitative participation of these reactants leading to the reduction of the electron acceptor with concomitant breakdown of ATP to ADP and inorganic phosphate[7]. The work described in this paper shows that (1) AzoFd reversibly binds both ATP, a reactant in N2 reduction, and ADP, a specific inhibitor of N2 reduction, and (2) MoFd reversibly binds cyanide, which is also reduced by the N_2-reducing system. It is suggested that the binding of ATP and of cyanide are partial reactions of the N_2-reducing system.
Additional Information
© 1968 National Academy of Sciences. Communicated by Martin D. Kamen, August 27, 1968. We appreciate the capable preparative skills of Mrs. Dorothy Sheets and Mrs. Claudette Polis. We thank Professor W. J. Ray, Jr., for generous advice. Supported by NIH grant AI04865-06.Attached Files
Published - BUIpnas68.pdf
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Additional details
- PMCID
- PMC305430
- Eprint ID
- 5001
- Resolver ID
- CaltechAUTHORS:BUIpnas68
- AI04865-06
- NIH
- Created
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2006-09-18Created from EPrint's datestamp field
- Updated
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2019-10-02Created from EPrint's last_modified field