Potency factors in the delta‐endotoxin of Bacillus thuringiensis var. aizawi and the significance of plasmids in their control

Abstract

Mutants defective in delta‐endotoxin crystal production from four closely related isolates of Bacillus thuringiensis var. aizawi with aizawi serotype crystals were as vigorous as the parents in terms of growth, extracellular protease production, sporulation and heat resistance of spores. Spores produced by mutants germinated faster than wild type spores possibly due to deficiency of protein, in the form of delta‐endotoxin in the spore coat. Acrystalliferous (cry—) mutants were not active in Galleria mellonella or Pieris brassicae larvae. Mutants with small crystals (sm cry) lost activity or gained extra activity against either one or the other host, revealing the presence of different toxicity factors. Solubilized crystals of parent isolates were composed of two major polypeptides with Mr values of 130 000 and 138 000. Sm cry mutants lost either polypeptide irrespective of which insect potency had been lost. Some cry — and some sm cry mutants had the same plasmid pattern as the parent; others lost one plasmid sometimes gaining another of different size. No consistent correlation was found between plasmid loss in mutants and any loss or increase of potency indicated by bioassays. It is concluded that the delta‐endotoxins of the isolates under investigation are composed of at least two toxins. The results suggest that genes coding for the production of toxic factors or for their expression may be carried on both the plasmids and the chromosome.