Biocontrol potential of bacillus thuringiensis 2025

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B. thuringiensis is used as an insecticide. It can produce toxins to the natural pesticide. The gene responsible for this toxin is incorporated in to plants thus making it resistant against pesticides.
Bacillus thuringiensis (B.t.) is a natural spore-forming bacterium that occurs in soils everywhere. As the spore matures, it produces a protein crystal that is toxic for lepidopteran insects like spruce budworm. When larvae ingest B.t., it destroys the lining in their gut, and they stop feeding and die within days.
Bacillus thuringiensis (Bt) is a gram-positive, spore-forming bacteria known for its ability to produce crystal proteins (Cry). Cry protein is believed to be toxic to many insects and that is why Bt is used as a microbial insecticide for improved resistance in plants by genetic modification (Salehi Jouzani et al.
As noted above, B. thuringiensis is a common Gram- positive, spore-forming aerobic bacterium that can be readily isolated on simple media such as nutrient agar from a variety of environmental sources including soil, water, plant surfaces, grain dust, dead insects, and insect feces [13]. Its life cycle is simple.
Reduced insect damage im-proves crop yield, reduces fungal toxins in the food supply, and improves the livelihood of farmers. Replacement of toxic chemical pesticides with Bt has reduced hazards to the environment and farm workers.
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Therefore, Bacillus is a good biocontrol agent that has great potential to control plant parasitic nematodes. Biocontrol of PPN is attributed to bacteria directly or indirectly affecting nematodes through producing secondary metabolites or inducing plant systemic resistance [23].
Biological control is the use of living organisms to suppress pest populations, making them less damaging than they would otherwise be. Natural enemies of insects play an important role in limiting the densities of potential pests. These natural enemies include predators, parasitoids, and pathogens.

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