Isolation of a Bacillus thuringiensis strain from South African soils and the characterization of its cry gene sequence.

Date
2007-10-23T13:06:43Z
Authors
Laridon, Neil Edward
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Abstract
The objectives of this project was to isolate and characterize a Bacillus thuringiensis strain from South African soils, determine its cry gene sequence, clone this gene sequence and determine its toxicity. Forty four putative Bacillus thuringiensis strains were extracted from soil samples taken from the Muldersdrift mountain range, the Roodekrans botanical gardens, Southbroom in Kwazulu Natal and Nelspruit in eastern Mpumalanga province. The bacterial populations of these soil samples were isolated and classified using different microbial, and biochemical techniques including sodium acetate tests to isolate putative B. thuringiensis spores. These spores were cultured and further characterized through colony shape and colour as well as the presence of δ-endotoxin crystals. Once characterized, DNA was extracted from the isolates using an array of techniques to obtain high quality template DNA. This DNA was then screened via PCR using truncated versions of the cry1A specific primers TYIAA (f) and TYIUN12 (r). The insecticidal protein CRY1A was selected for this study since it is specific and highly toxic to lepidopteron insects. Homology to the cry1a gene was detected in six of the Bacillus strains analyzed, namely S4, S9, S10 n1, n3 and n5. PCR products were cloned into the pTZ57R/T cloning vector and transformed into JM109 competent cells. DNA from the six isolates was also characterized at the 16S rDNA level with the use of PCR. Primers capable of amplifying nearly full-length 16S ribosomal DNA (approximately l,500-bp) fragments from many bacterial genera confirmed that the isolates were indeed Bacillus thuringiensis, showing evidence of lineage according to the signature sequences within the conserved regions. Spore/δ-endotoxin mixtures of the randomly selected isolate S10 were used in a bioassay to test their toxicity against the lepidopteron insect Galleria mellonella. No significant mortalities were reported, but sensitivity to the S10 δ- endotoxin was evident when compared to results using known B. thuringiensis δ- endotoxins at the same concentrations.
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Keywords
Bacillus thuringiensis, Soils South Africa, Cry gene
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