Biochemical and genetic characterization of kynurenine formamidase from Drosophila melanogaster

Abstract

The molecular weight forms of kynurenine formamidase were studied both genetically and biochemically. Formamidase I (native molecular weight 60,000) was purified using (NH₄)₂SO₄ and pH fractionation, DEAE-cellulose chromatography at two different pH's, hydroxylapatite chromatography, and Sephadex G-100 gel filtration. Its subunit molecular weight, as determined by SDS gel electrophoresis, is 34,000, indicating that formamidase I is a dimer. Its K _m is 1.87×10⁻³m. Its isoelectric point is pH 5.3. Its amino acid composition is reported. Formamidase II (native molecular weight 31,000) was partially purified using techniques similar to those above. Its K _m is 2.31×10⁻³m. The response of formamidase activity to change in gene dosage was measured in segmental aneuploids generated in the second, third, and X chromosomes. Two separate chromosomal regions were identified which when present in extra dosage result in an elevation of the level of formamidase activity close to that predicted for the addition of a structural gene in a two-gene system. These tentative map positions were substantiated by demonstration that addition of one of the regions, 25A–27E, causes a 50% elevation in the relative amount of formamidase II. Addition of the other region, 91B–93F, causes a similar elevation in the relative amount of formamidase I. A model of the evolutionary origin of the two forms is presented, and the significance of these results to this model is discussed.