Abstract
BackgroundBacillus thuringiensis (Bt) produces a group of δ-endotoxin proteins designated as cry toxins. No doubt that Bt isolates are excellent potential candidates for biological control strategies.ResultsThe present study showed that 12 Bt strains were isolated and characterized at morphological, biochemical, and molecular levels. All the tested 12 Bt strains were gram-positive, endospore-forming, and possessing typical Bt crystal structures under the scanning electron microscopy (SEM). Universal primers direct and reverse of five pairs were used to detect five Cry-type genes (Cry1, Cry2, Cry3, Cry4, Cry7, and Cry8) by the PCR sizes produced from the studied Bt strains. The 16S rRNA PCR technique, 16S gene primer, DNA template, dNTPs, and Taq polymerase produced unique and distinguishable restriction patterns used for the molecular characterization of the studied Bt strains. Based on the PCR products, the frequency of Cry-gene distribution among the tested strains was Cry1 100%, Cry4 85%, and Cry3 62%, and Cry2 and Cry7 frequency was 54%. Based on the activity of insecticidal of the tested Bt strains, Bt1, Bt9, Bt10, and Bt11 were extremely pathogenic; their pathogenicity ranged from 93 to 100% against dipteran and lepidopteran larvae, compared to the other Bt isolates. The nucleotide sequences of amplified 1500 bp conserved region of 16S rRNA genes of four strains blasted using NCBI database compared to NCBI database sequences, and they were reported as native strains of Bt showing high homology with the known Bt strains (99–100%). The nucleotide sequences of Bt1, Bt9, Bt10, and Bt11 were placed in the GenBank database under accession numbers MN860017, MN843958, MN843959, and MN843960, respectively.ConclusionThe strategies of enhancing the sustainability of crops and vegetables that are targeted by a large number of pathogenic insects require a great effort of exploring novel species and strains of Bt. Herein, native strains of Bt were documented from the eastern province of Saudi Arabia that displayed bio-insecticidal action on larvae of Diptera and Lepidoptera.
Highlights
Bacillus thuringiensis (Bt) produces a group of δ-endotoxin proteins designated as cry toxins
The strategies of enhancing the sustainability of crops and vegetables that are targeted by a large number of pathogenic insects require a great effort of exploring novel species and strains of Bt
Native strains of Bt were documented from the eastern province of Saudi Arabia that displayed bio-insecticidal action on larvae of Diptera and Lepidoptera
Summary
Bacillus thuringiensis (Bt) produces a group of δ-endotoxin proteins designated as cry toxins. No doubt that Bt isolates are excellent potential candidates for biological control strategies. Enhancing the resistance of crop and vegetable plants against pathogenic organism diseases is an excellent strategy to increase their productivity and achieve sustainable development. Several microorganisms induce toxins that can be used to control the pathogenicity of a wide range of plant pathogens. Bt is a soil organism that produces crystal inclusions during sporulation. The inclusions are toxic proteins encoded by Cry genes and shown to have toxic effects against different groups of insects, nematodes, and protozoa (Abo-Bakr et al 2020). Bt toxic proteins neither affect human health nor nontarget organisms. Several research articles proved that Bt synthesizes Cry toxins terminating the growth of pathogenic insect larvae
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