Two genes encoding the 32- and 40-kDa polypeptides of Bacillus thuringiensis strain 90-F-45-14 crystals were cloned, expressed in an acrystalliferous B. thuringiensis strain, and sequenced. The polypeptides had deduced molecular weights of 30,319 and 33,885, respectively. The amino acid sequence of the 32-kDa protein was 37.7% identical to the known sequence of a non-insecticidal parasporal protein in B. thuringiensis serovar thompsoni crystals. The sequence of the cloned 40-kDa protein was 37.0% and 22.3% identical to that of the existing Cry protein classes, Cry15Aa1 and Cry23Aa1, respectively. Thus, this protein constitutes a novel protein class, Cry33Aa1. The open reading frames of the two genes were located on the predominant plasmid of 17,629 bp (=11,752 MDa) in the same orientation, and they were separated by the sequence of 32 nucleotides. The two proteins are likely produced simultaneously from a single transcript to form spherical crystals.
To isolate naturally occurring novel Bacillus thuringiensis strains, we investigated the distribution and characteristics of B. thuringiensis from samples of sericultural farms in various regions of Korea in the spring and fall. Fifty-four B. thuringiensis strains out of 164 samples and 34 B. thuringiensis strains out of 135 samples were isolated in the spring and fall, respectively. Seventy percent of the isolates in the spring and 15% in the fall were toxic to lepidopteran larvae. Dipteranactive isolates were rare (7% in spring and 3% in fall isolation). Particularly, B. thuringiensis isolates, which are toxic to both Lepidoptera and Diptera, were widely distributed (19% in spring and 62% in fall isolation). Non-toxic isolates were also found (4% in spring and 20% in fall isolation). B. thuringiensis isolates in the sericultural farms represented 11 H serotypes; they were principally B. thuringiensis subsp. aizawai in the spring and kurstaki in the fall. B. thuringiensis isolates of serotypes 1, 3a, 3a3b, 4a4c, 6, 7 and 12 were toxic to Lepidoptera. Seventy isolates produced typical rhomboidal inclusions, and the remainder produced parasporal inclusions with various morphologies. PCR analysis using cryI gene type-specific primers showed that cryIAa and cryIC genes are frequently found in the spring and cryIAa gene is a predominant type in the fall. Toxicity, H serotype and the cryI gene contents of B. thuringiensis isolated from sericultural farms showed that distribution varied depending on the season.
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