Activation of a cryptic crystal protein gene of Bacillus thuringiensis subspecies kurstaki by gene fusion and determination of the crystal protein insecticidal specificity.

DNA hybridization with the insecticidal crystal protein gene cryllA (formerly cryBl) of Bacillus thuringiensis supspecies kurstaki has shown that subspecies kurstaki contains a cryllA-related sequence in addition to the cryllA gene (Donovan et al., 1988a). We have cloned the cryllA-related sequence and have determined that the sequence, which has been designated cryllB, is 89% identical to the cryllA gene. Recombinant B. thuringiensis cells harbouring the cloned cryllB gene produced very little CryllB protein. A high level of production of the CryllB protein was achieved by fusing the regulatory region of the crylllA crystal protein gene to the cryllB gene. The CryllB protein was found to be highly toxic to Lymantria dispar, Heliothis virescens and Trichoplusia ni, and was not toxic to Aedes aegypti.

Isolation and characterization of EG2158, a new strain of Bacillus thuringiensis toxic to coleopteran larvae, and nucleotide sequence of the toxin gene.

A novel strain of Bacillus thuringiensis was isolated from soybean grain dust from Kansas and found to be toxic to larvae of Leptinotarsa decemlineata (Colorado potato beetle). The strain (EG2158) synthesized two parasporal crystals: a rhomboid crystal composed of a 73116 dalton protein of approximately 30 kDa. Plasmid transfer and gene cloning experiments demonstrated that the 73 kDa protein was encoded on an 88 MDa plasmid and that the protein was toxic to the larvae of Colorado potato beetle (CPB). The sequence of the 73 kDa protein, as deduced from the sequence of its gene (cryC), was found to have regions of similarity with several B. thuringiensis crystal proteins: the lepidopteran-toxic P1 proteins of var. kurstaki and berliner, the lepidopteran- and dipteran-toxic P2 (or CRYB1) protein of var. kurstaki, and the dipteran-toxic 130 kDa protein of var. israelensis. While B. megaterium cells harboring the cryC gene from EG2158 synthesized significant amounts of the 73 kDa CRYC protein, Escherichia coli cells did not. The cryC-containing B. megaterium cells produced rhomboid crystals that were toxic to CPB larvae.

Molecular characterization of a gene encoding a 72-kilodalton mosquito-toxic crystal protein from Bacillus thuringiensis subsp. israelensis.

A gene encoding a 72,357-dalton (Da) crystal protein of Bacillus thuringiensis var. israelensis was isolated from a native 75-MDa plasmid by the use of a gene-specific oligonucleotide probe. Bacillus megaterium cells harboring the cloned gene (cryD) produced significant amounts of the 72-kDa protein (CryD), and the cells were highly toxic to mosquito larvae. In contrast, cryD-containing Escherichia coli cells did not produce detectable levels of the 72-kDa CryD protein. The sequence of the CryD protein, as deduced from the sequence of the cryD gene, was found to contain regions of homology with two previously described B. thuringiensis crystal proteins: a 73-kDa coleopteran-toxic protein and a 66-kDa lepidopteran- and dipteran-toxic protein of B. thuringiensis subsp. kurstaki. A second gene encoding the B. thuringiensis subsp. israelensis 28-kDa crystal protein was located approximately 1.5 kilobases upstream from and in the opposite orientation to the cryD gene.

Amino acid sequence and entomocidal activity of the P2 crystal protein. An insect toxin from Bacillus thuringiensis var. kurstaki.

The gene encoding the 66-kDa entomocidal protein (P2 protein or mosquito factor) from Bacillus thuringiensis var. kurstaki has been isolated by the use of a 62-mer oligonucleotide probe that encoded 21 amino acids of the P2 protein NH2 terminus. The DNA sequence of the gene, designated cryBI, was unique from the published sequences of other B. thuringiensis genes. However, the amino acid sequence of the P2 protein, as deduced from the DNA sequence of the cryBI gene, was found to contain a sequence of 100 amino acids having 37% homology to a group of B. thuringiensis entomocidal proteins, the P1 proteins. Late stationary phase Bacillus megaterium cells harboring the cloned B. thuringiensis cryBI gene contained large aggregates of the P2 protein, and the cells were highly toxic to both lepidopteran and dipteran larvae. In contrast, Escherichia coli cells harboring the cloned cryBI gene contained very low levels of the P2 protein. DNA blot hybridization experiments showed that certain B. thuringiensis strains contained at least one cryBI-related DNA sequence in addition to the cryBI gene itself.