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Ferredoxin binding site on ferredoxin: NADP+ reductase. Differential chemical modification of free and ferredoxin-bound enzyme.

European journal of biochemistry (1993-08-15)
I Jelesarov, A R De Pascalis, W H Koppenol, M Hirasawa, D B Knaff, H R Bosshard
RÉSUMÉ

The chloroplast enzyme ferredoxin: NADP+ reductase (FNR) catalyzes the reduction of NADP+ by ferredoxin (Fd). FNR and Fd form a 1:1 complex that is stabilized by electrostatic interactions between acidic residues of Fd and basic residues of FNR. To localize lysine residues at the Fd binding site of FNR, the FNR:Fd complex (both proteins from spinach) was studied by differential chemical modification. In a first set of experiments, free FNR and the FNR:Fd complex were reacted with the N-hydroxysuccinimidyl ester of biotin. Biotinylated peptides and non-biotinylated peptides were separated on monovalent avidin-Sepharose and purified by high-performance liquid chromatography. Two peptides containing Lys18 and Lys153, respectively, were less biotinylated in complexed FNR than in free FNR. In a second set of experiments, free and complexed FNR were treated with 4-N,N-dimethylaminoazobenzene-4'-isothiocyano-2'-sulfonic acid (S-DABITC) to obtain coloured lysine-modified FNR. Protection of Lys153 was again found by modification with S-DABITC. In addition, Lys33 and Lys35 were less labelled in the S-DABITC-modified. Fd-bound enzyme. FNR modified in the presence, but not in the absence, of Fd was still able to bind Fd, indicating that the Fd-protected residues are involved in the formation of the Fd:FNR complex. The lysine residues disclosed by differential modification surround the positive end of the molecular dipole moment (558 Debye approximately 1.85 x 10(-27) Cm) and are located in a domain of strong positive potential on the surface of the FNR molecule. This domain we had proposed to belong to the binding site of FNR for Fd [De Pascalis, A. R., Jelesarov, I., Ackermann, F., Koppenol, W. H., Hirasawa, M., Knaff, D. B. & Bosshard, H. R. (1993) Protein Science 2. 1126-1135]. The prediction was based on the complementarity of shape between positive and negative potential domains of FNR and Fd, respectively.

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4-(4-Isothiocyanatophenylazo)-N,N-dimethylaniline, 97%