Anisakis,Phocanema, Contracaecum, and Sulcascaris Spp.: Electrophoresis and thermostability of alcohol and malate dehydrogenases from larvae

Electrophoretic surveys were conducted on individual larvae of four anisakine nematode genera: Anisakis, Phocanema, Contracaecum, and Sulcascaris. The larval worms were obtained from a variety of fish and molluscan hosts from widely dispersed geographic regions. Of several enzymes detected, constant and apparently species-specific electrophoretic patterns were obtained for alcohol dehydrogenase (ADH, alcohol:NAD oxidoreductase, EC 1.1.1.1) and malate dehydrogenase (MDH, l-malate: NAD oxidoreductase, EC 1.1.1.37). ADH, in all but Sulcascaris sp., possessed two isozymes, the slower of which was sensitive to temperature and inhibitors. Failure of preelectrophoretic treatment with NAD to cause interconversion of these isozymes suggests that they are products of separate genetic loci. Both isozymes were maximally active with isopropanol, sec-butanol, and amyl alcohol. Within a given species, ADH showed negligible variation (i.e., apparent genetic polymorphism) with respect to individual larvae, site of larvae in the host, or geographical origin of the host. MDH from Anisakis, Sulcascaris, and Phocanema spp. possessed one, two, and three bands of activity, respectively; MDH is highly thermostable in Anisakis sp. but not in the other species.