Abstract
Abstract
Background
Bacillus thuringiensis (Bt) Berliner is an omnipresent soil bacterium used as world’s leading biopesticide to combat agriculturally important insect pests. This study was aimed at protein and gene profiling of an indigenous Bt isolate RM11, which was toxic to the larvae of diamondback moth, Plutella xylostella (L.) in laboratory bioassays.
Results
Indigenous Bt isolate RM11 was characterized along with the standard checks B. thuringiensis subsp. kurstaki (Btk) HD1 and 78/11, based on colony characters, protein profile and PCR screening. All three Bt colonies were fried egg type, white in color with flat elevation and undulated margin. PCR screening revealed the presence of cry1Ac and vip3A genes, which encode lepidopteran toxic proteins in RM11. SDS-PAGE results showed the presence of a prominent protein band of cry1Ac, vip3A with molecular weights 135 kDa, 88 kDa and other bands at 70, 50, 32 and 10 kDa. In leaf disk bioassay with spore crystal mixture, RM11 exhibited toxicity with LC50 of 4.51 µg/ml as against 0.07 µg/ml in positive standard HD1, based on mortality at 72 h after treatment. At LC50 of 4.51 µg/ml, solubilized and insolubilized protein of RM11 was found to produce 56 and 70% mortality.
Conclusions
The present study revealed that RM11 could be a viable alternative for consideration in developing a native Bt formulation and for inclusion in the integrated management of P. xylostella with other native isolates producing different toxins. Furthermore, these findings imply that RM11 could be a source of new cry toxin, which can be confirmed through whole-genome sequencing analysis.
Funder
Ministry of Science and Technology
Publisher
Springer Science and Business Media LLC
Subject
Insect Science,Plant Science,Agronomy and Crop Science,Ecology
Cited by
1 articles.
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