Janusz Steczko

Effect of ethanol and low-temperature culture on expression of soybean lipoxygenase L-1 in Escherichia coli☆

We have constructed a full-length cDNA that encodes soybean seed lipoxygenase L-1 and have expressed it in Escherichia coli. This gene was inserted into a pT7-7 expression vector, containing the T7 RNA polymerase promoter. E. coli, strain BL21 (DE3), which carries the T7 promoter in its genome, was transfected with the plasmid. Expression of this gene when the cells were cultured at 37 degrees C yielded polypeptide that was recognized by anti-L-1 antibody, but had very little lipoxygenase activity. Yields of active enzyme were markedly increased when cells were cultured at 15-20 degrees C. When ethanol, which has been reported to be an excellent elicitor of heat-shock proteins in E. coli, was also present at a level of 3% the yield was further increased by 40%. Under optimum conditions 22-30 mg of soluble active enzyme was obtained per liter of culture.

Identification of the iron-binding histidine residues in soybean lipoxygenase L-1

Lipoxygenases constitute a class of non-heme, non-sulfur iron dioxygenases acting upon lipids possessing a 1,4-cis-cis-pentadiene moiety. The iron is known to be essential for activity. A motif of six histidine residues has been found in all of the thirteen lipoxygenases, from both plant and animal sources, whose sequences have been reported. We had previously obtained mutant proteins in which each of the 6 conserved histidines of soybean lipoxygenase L-1 had been replaced and found that the mutants H499Q, H504Q (or H504S) and H690Q had no detectable enzymatic activity. We have now found that these inactive proteins contain no Fe, although they have the same electrophoretic mobility as wild-type L-1 under both denaturing and non-denaturing conditions and react with anti-L-1 antibodies.

Effect of albumin on binding and recovery of enzymes in affinity chromatography on Cibacron Blue

Bovine serum albumin appears to improve the specificity of Cibacron Blue F3GA in affinity chromatography of enzymes which interact with nucleotides. The action of bovine serum albumin may rest in its ability to selectively mask affinity sites in the dye, which are not specific for the nucleotide-binding region of the enzyme, while not seriously impairing binding nor its elution by nucleotides. Thus, the elution of Chlorella nitrate reductase from a Blue Sepharose chromatographic column by its coenzyme, NADH, fails, unless the column is first treated with bovine serum albumin. Such treatment also improves the recovery of some other nucleotide-binding enzymes tested.

Crystallization of alcohol oxidase fromPichia pastoris. Secondary structure predictions indicate a domain with the eightfold β/α-barrel fold

Alcohol oxidase fromPichia pastoris has been crystallized from polyethylene glycol 4000 solutions. The crystals are tetragonal, a=228 Å, c=456 Å space groupP41212. The crystals scatter only to about 6 Å resolution; their poor crystallinity may have some physiological function. Secondary structure predictions suggest that the C-terminal part of the molecule, residues 311–664, has the folding of an eightfold β/α-barrel (TIM barrel). This would indicate common ancestry with four other flavoenzymes: canavalin, glycolate oxidase, flavocytochrome b, and trimethylamine dehydrogenase.

Effect of ferrate, a site-specific phosphate analog, on human deoxyhemoglobin☆

Ferrate ion, a phosphate analog and a potent oxidizing agent, is known to inactivate a number of enzymes which interact with phosphoryl compounds. In contrast, enzymes which do not interact with phosphoryl compounds are not affected by comparable concentrations of ferrate. To further explore the specificity of ferrate as a reagent which is specific for phosphoryl binding sites, a study of its effect on human hemoglobin A was undertaken. In the deoxy form, this protein is known to interact with 2,3-bisphosphoglycerate, its natural allosteric inhibitor of cooperative binding of oxygen, while as oxyhemoglobin it does not interact with the inhibitor. Treatment with ferrate ion caused the loss of approximately three amino acid residues per beta chain of human deoxyhemoglobin, His-2, His-143, and Tyr-145, and one residue, presumably Tyr-42, per alpha chain. Oxyhemoglobin was not affected by the reagent. 2,3-Bisphosphoglycerate was found to protect deoxyhemoglobin from the action of ferrate. His-2 and His-143 are among the residues reported to be implicated in the binding of 2,3-bisphosphoglycerate by deoxyhemoglobin [A. Arnone (1972) Nature (London) 237, 146-148].