Wm. H. McGaughey

Resistance to Bacillus thuringiensis by the Indian meal moth, Plodia interpunctella: Comparison of midgut proteinases from susceptible and resistant larvae

Midgut homogenates from susceptible and resistant strains of the Indian meal moth, Plodia interpunctella, were compared for their ability to activate the entomocidal parasporal crystal protein from Bacillus thuringiensis. The properties of midgut proteinases from both types of larvae were also examined. Electrophoretic patterns of crystal protein from B. thuringiensis subspecies kurstaki (HD-1) and aizawai (HD-133 and HD-144) were virtually unchanged following digestion by either type of midgut homogenate. Changes in pH (9.5 to 11.5) or midgut homogenate concentration during digestion failed to substantially alter protein electrophoretic patterns of B. thuringiensis HD-1 crystal toxin. In vitro toxicity of crystal protein activated by either type of midgut preparation was equal toward cultured insect cells from either Manduca sexta or Choristoneura fumiferana. Electrophoresis of midgut extracts in polyacrylamide gels containing gelatin as substrate also yielded matching mobility patterns of proteinases from both types of midguts. Quantitation of midgut proteolytic activity using tritiated casein as a substrate revealed variation between midgut preparations, but no statistically significant differences between proteolytic activities from susceptible and resistant Indian meal moth larvae. Inhibition studies indicated that a trypsin-like proteinase with maximal activity at pH 10 is a major constituent of Indian meal moth midguts. The results demonstrated that midguts from susceptible and resistant strains of P. interpunctella are similar both in their ability to activate B. thuringiensis protoxin and in their proteolytic activity.

Small scale bioassay for the determination of Bacillus thuringiensis toxicity toward Plodia interpunctella

Abstract A new bioassay procedure is described for determining the level of toxicity of Bacillus thuringiensis preparations toward the Indian meal moth, Plodia interpunctella. The method is rapid, accurate, and requires relatively small quantities of toxin protein. Probit dose-mortality results using the single larva bioassay technique compared favorably with results from conventional longterm diet bioassay procedures. Individual larvae could also be scored according to the approximate day of death, providing additional information regarding the kinetics of mortality.

Insecticidal activity of spore-free mutants of Bacillus thuringiensis against the Indian meal moth and almond moth

Abstract Three oligosporogenic mutants of Bacillus thuringiensis were assayed for toxicity against larvae of the Indian meal moth, Plodia interpunctella, and the almond moth, Ephestia cautella. The results were compared with insecticidal activity obtained from the parent strain (HD-1) and two standard B. thuringiensis formulations (HD-1-S-1971 and HD-1-S-1980) against the same insect species. The toxicity of the sporeless mutant preparations was significantly diminished against the Indian meal moth (10- to 26-fold increase in LC50) but exceeded the toxicity of the standards against the almond moth. The toxicities of the B. thuringiensis preparations toward the Indian meal moth were consistent with the number of spores in the test samples, but spores did not contribute to toxicity to E. cautella larvae. A rationale for basing dosage on soluble protein was demonstrated for use in situations where spores are not a contributing factor in toxicity.