Characterization of Bacillus thuringiensis isolates from soil and small mammals that harbour vip3A gene homologues

Abstract

The insecticidal and psychrotropic potential of 132 new isolates of Bacillus thuringiensis from northeastern Poland (74 from animals and 58 from soil) were determined by screening these for vip and cry genes encoding, respectively, vegetative insecticidal proteins (Vip) and Cry proteins, and cspA that encoded the CspA cold shock protein that confers psychrotropy in Bacillus species. The vip3A gene, encoding Vip3A toxic to lepidopterans, was found in ~5% of the isolates from animals and ~17% the isolates from soil, whereas coleopteran-specific vip1 and vip2 genes were present in 8% of the isolates from soil. Nucleotide sequences of vip3A-specific amplicons were highly conserved, with only a few containing minor differences from vip3A. Despite the high level of vip3A conservation, isolates harbouring the gene demonstrated a high level of heterogeneity based on whole-cell genomic DNA RFLP analysis with pulsed-field gel electrophoresis (PFGE) and plasmid profiling. Eight isolates positive for vip3A contained cry1 and six also harboured the cry2 gene, which encodes an endotoxin toxic to lepidopteran insects. However, none of these isolates contained cry genes coding for proteins toxic to coleopteran or dipteran insects. Due to the known potential for synergistic interactions between Vip and Cry proteins, the isolates positive for vip3A and cry genes may be used in resistance management strategies directed against lepidopteran larvae. Finally, all of the B. thuringiensis vip3A-positive isolates harboured the cspA gene, but only two were confirmed to be psychrotrophs.