Modification of ferredoxin-NADP + reductase from the alga Bumilleriopsis with butanedione and dansyl chloride

Abstract

Modification of ferredoxin-NADP + reductase from the alga Bumilleriopsis with butanedione (diacetyl) and dansyl chloride results in loss of enzymatic activity. Under pseudo-first order conditions the rate of inactivation by butanedione is directly proportional to the concentration of the modifying reagent with a slope of unity. The protective effect of pyridine nucleotides, as well as their analogs against inactivation by butanedione indicates involvement of arginine in the binding of pyridine nucleotides at the active site. Inactivation by dansyl chloride suggests that a further amino acid is involved, possibly lysine. Amino acid analyses of the butanedione-treated reductase show that the degree of inactivation correlates well with the decrease in arginine. Furthermore, two arginine residues are modified concomitant with complete inactivation of the enzyme, although this does not imply that both residues participate necessarily in the binding of pyridine nucleotides. Fingerprint analysis of the carboxymethylated, trypsin-digested enzyme indicates loss of one arginine-containing peptide when the protein had been modified by butanedione. There was no change in cysteine-containing peptides.