CONSERVED HISTIDINE-RESIDUES IN SOYBEAN LIPOXYGENASE - FUNCTIONAL CONSEQUENCES OF THEIR REPLACEMENT

Sequences of 13 lipoxygenases from various plant and mammalian species, thus far reported, display a motif of 38 amino acid residues which includes 5 conserved histidines and a 6th histidine about 160 residues downstream. These residues occur at positions 494, 499, 504, 522, 531, and 690 in soybean lipoxygenase isozyme L-1. Since the participation of iron in the lipoxygenase reaction has been established and existing evidence based on Mossbauer and EXAFS spectroscopy suggests that histidines may be involved in iron binding, the effect of the above residues has been examined in soybean lipoxygenase L-1. Six singly mutated lipoxygenases have been produced in which each of the His residues has been replaced with glutamine. Two additional mutants have been constructed wherein the codons for His-494 and His-504 have been replaced by serine codons. All of the mutant lipoxygenases, which were obtained by expression in Escherichia coli, have mobilities identical to that of the wild-type enzyme on denaturing gel electrophoresis and respond to lipoxygenase antibodies. The mutated proteins H499Q, H504Q, H504S, and H690Q are virtually inactive, while H522Q has about 1% of the wild-type activity. H494Q, H494S, and H531Q are about 37%, 8%, and 20% as active as the wild type, respectively. His-517 is conserved in the several lipoxygenase isozymes but not in the animal isozymes. The mutant H517Q has about 33% of the wild-type activity. The inactive mutants, H499Q, H504Q, H504S, and H690Q, become insoluble when heated for 3 min at 65-degrees-C, as does H522Q. The other mutants and the wild-type are stable under these conditions. Although the essentiality of His-499, -504, and -690 is not proven, they are tentatively considered to be prime candidates for iron ligands. Judgment on the role of H-522 is more uncertain, since mutant H522Q has weak but detectable activity. The K(m) values of the active mutants and the wild-type L-1, when determined against linoleic acid, differ only moderately, indicating that His replacements do not greatly influence the binding of the substrate.