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. 1986 Aug 25;261(24):11214-23.

Association of ferredoxin-NADP+ reductase with NADP(H) specificity and oxidation-reduction properties

  • PMID: 3755438
Free article

Association of ferredoxin-NADP+ reductase with NADP(H) specificity and oxidation-reduction properties

C J Batie et al. J Biol Chem. .
Free article

Abstract

The equilibrium properties of the NADP+ binding site of ferredoxin-NADP+ reductase (FNR, or Fd-NADP+ reductase) were examined with regard to specificity in binding, and with regard to the oxidation-reduction properties of the FNR.NADP+ complex. With the exception of 3'-NADP+, only adenosine nucleotides with a 2'-adenosyl phosphate bound to Fd-NADP+ reductase. Kd values increased in the order: 2',5'-ADP greater than 2',5'-ATP ribose greater than NADP+ greater than 2'-AMP greater than 3'-NADP+. No evidence was found for binding of NAD, NMN, or 5'-ADP. Thus the 2'-adenosylphosphate controls specificity in substrate binding, as well as specificity in enzyme activity. The low affinity of Fd-NADP+ reductase for 2'-AMP suggests that the phosphate(s) of the pyrophosphate bridge of NADP+ may also contribute significantly to binding energy. Fd-NADP+ reductase was found to form a high-affinity two-electron reduced complex (FNR.NADPH) with a NADPH; complex formation was associated with appearance of long-wavelength charge-transfer bands. Kd of FNR.NADPH complex was about 6% the Kd of oxidized FNR.NADP+ complex. As predicted by the lower Kd, the Em for reduction of FNR.NADP+ complex to the charge-transfer complex was about 40 mV more positive than the potential of the NADP+/NADPH couple. Rapid kinetic studies supported description of the charge-transfer complex as primarily oxidized FNR.NADPH. Thus, complex formation helps drive electron transfer from the flavoprotein to NADP+.

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