Active-site residues of a plant membrane-bound fatty acid elongase beta-ketoacyl-CoA synthase, FAE1 KCS.

The fatty acid elongase-1 beta-ketoacyl-CoA synthase, FAE1 KCS, a seed-specific elongase condensing enzyme from Arabidopsis, is involved in the production of eicosenoic (C20:1) and erucic (C22:1) acids. Alignment of the amino acid sequences of FAE1 KCS, KCS1, and five other putative elongase condensing enzymes (KCSs) revealed the presence of six conserved cysteine and four conserved histidine residues. Each of the conserved cysteine and histidine residues was individually converted by site-directed mutagenesis to both alanine and serine, and alanine and lysine respectively. After expression in yeast cells, the mutant enzymes were analyzed for their fatty acid elongase activity. Our results indicated that only cysteine 223 is an essential residue for enzyme activity, presumably for acyl chain transfer. All histidine substitutions resulted in complete loss of elongase activity. The loss of activity of these mutants was not due to their lower expression level since immunoblot analysis confirmed each was expressed to the same extent as the wild type FAE1 KCS.

A new look at a time-worn system: oxidation of CuZn-SOD by H2O2.

This work summarizes observations from numerous investigators on the reaction of the copper-zinc superoxide dismutase with hydrogen peroxide at physiological pH in order to propose a likely sequence of events that leads to 2-oxo-histidine formation, copper loss, inactivation, and random and site-specific peptide fragmentation. New data is presented for the bovine liver enzyme that indicate copper is lost as the copper(I) form which immediately reacts with bathocuproine disulfonate to form the characteristic complex that absorbs at 485 nm. Studies in TRIS buffer ruled out the loss of copper(II) followed by reduction of the high potential copper(II)-bathocuproine disulfonate complex by buffer because TRIS is known not to reduce this complex. The rate of loss of copper(I) is not affected by the spin trap, 5,5'-dimethylpyrolline-N-oxide (DMPO), nor by replacing oxygen with argon in the reaction. In addition, changes in the native electrophoretic pattern that are correlated with copper loss and not peptide fragmentation are also unaffected by DMPO, argon, EDTA, or DTPA. These data are taken as indirect evidence that the formation of 2-oxo-histidine is the first oxidative event, unaffected by DMPO, that occurs at the bound oxidant and leads to loss of copper(I). Peptide fragmentation and the peroxidative activity of the dismutase are discussed in light of these observations.