Aldehyde oxidases and dehydrogenases in antennae of five moth species

Abstract

Conversion of Z11–16:A1 to its corresponding carboxylic acid was examined in male antennal extracts from Heliothis subflexa, Heliothis virescens, Heliothis zea, Manduca sexta and Spodoptera frugiperda moths. Both aldehyde dehydrogenase (ALDH) and aldehyde oxidase (AO) activities were detected by radiochromatographic assays using [ 3H]Z11–16:A1 as the substrate and by spectroscopic assays using Z11–16:A1 as the substrate. AO activity in each of the five moths showed a broad substrate specificity which included C 4 to C 18 aliphatic aldehydes and benzaldehyde. ALDH and AO enzymes from the male and female antennal extracts were identified after electrophoretic protein separation. AO enzymes were visualized on native polyacrylamide gels with formazan- or horseradish peroxidase-mediated stain coupled to the AO-catalyzed oxidation of benzaldehyde. Both sexes of most species showed intense AO-stained bands of similar mobility. Molecular subunits of potential ALDH enzymes were visualized by fluorography of SDS-PAGE-separated proteins after covalent modification by [ 3H](Z)-1,11-hexadecadien-3-one, a selective affinity label for ALDH. ALDH subunits appeared at 51 ± 1 kDa in antennae from males of all five species and females of three species; female H. zea and M. sexta moths lacked these characteristic ALDH subunits. These results constitute the first biochemical comparisons of coexisting ALDH and AO enzymes in antennal extracts from lepidopteran species from two families.