Abstract
The present study maybe is the first attempt in Egypt to evaluate the effect of Entomocidal proteins (Cry toxins) from Bacillus thuringiensis (Bt)Cry 1Ac and Cry 2Ab againstthe Egyptian cotton leafworm Spodoptera littoralis. The cotton leafworm one of the important Lepidopteran species is the most important pests in cotton fields. It can be controlled using Genetically Modified (GM) crops expressing insecticidal Bt proteins like Bt cotton and Bt corn. The long-term success of this technology demands pest resistance management. Important information for the successful management of resistance is the baseline susceptibility of the different target pests to the different Bt proteins. The data on baseline susceptibility should enable risk assessors and managers to assess whether GM cotton produces a Bt protein in a high-dose to specific target organisms and resistance has evolved during the commercial cultivation of this GM cotton event. During this study, the toxicity of Cry 1Ac and Cry 2Ab from the bacterium Bacillus thuringiensis to larvae of S. littoralis was assessed using first instar larvae with diet incorporation bioassays. Larvae reared (4 generations) from 2 populations of S. littoralis collected from major cotton-growing regions of Sohag and Assuit Governorates were tested. The LC50 for the Assuit strain was 140.11 and 88.54 µg/ml forCry 1Ac and Cry 2Ab, respectively. While, the LC50 for the Sohag strain was 410.75 and 37.62 µg/ml for Cry 1Ac and Cry 2Ab, respectively. On the other hand, the laboratory strain was more sensitive for the same Cry’s (Cry 1Ac and Cry 2Ab) the LC50 was13.40 and 0.23 µg/ml, respectively. The lethal concentration (LC50) against S. littoralis for 2nd and 4th instars larvae when using the B. thuringiensis as spores (commercial product) was 1.16 and 2.49 for 2nd and 4th instars, respectively. This study is very important as a preliminary step and baseline ahead of the commercial cultivation and production of Genetically Modified cotton (Bt cotton).
Highlights
The Egyptian cotton, Gossypium barbadense L., is considered a major economic crop in Egypt; it represents the first cash crop for national income
After ingestion in the midgut of pests, the Bacillus thuringiensis (Bt) protoxin is activated by the gut proteases into an active toxin, which binds to specific receptors like cadherin and amino peptidase-N or alkaline phosphates in the per trophic membrane, forming pores in the midgut epithelial cells (Fortier et al 2007; Abdullah et al, 2009; and Talaei-Hassanloui et al, 2014)
Biological Aspect: The larval instars which treated with LC50 of the B. thuringiensis, Cry1Ac and Cry2Ab were observed for the following biological aspect: larval duration, pupation rate, larval mortality percentage, the pupal duration, pupal weight, percentage, sex ratio, malformation, intermediate shape, emergence, and pupal mortality, female and male longevity, adult longevity, pre-oviposition, oviposition, post-oviposition period, fertility % and Incubation period
Summary
Keywords: Baseline, Cotton leafworm, Spodoptera littoralis, Cry 1Ac , Cry 2Ab, Entomocidal proteins toxins, Bacillus thuringiensis (Bt), Bt cotton, ABSTRACT The present study maybe is the first attempt in Egypt to evaluate the effect of Entomocidal proteins (Cry toxins) from Bacillus thuringiensis (Bt) Cry 1Ac and Cry 2Ab against the Egyptian cotton leafworm Spodoptera littoralis. The cotton leafworm one of the important Lepidopteran species is the most important pests in cotton fields. It can be controlled using Genetically Modified (GM) crops expressing insecticidal Bt proteins like Bt cotton and Bt corn. The long-term success of this technology demands pest resistance management. Important information for the successful management of resistance is the baseline susceptibility of the different target pests to the different Bt proteins. The data on baseline susceptibility should enable risk assessors and managers to assess whether GM cotton produces a Bt protein in a high-dose to specific target organisms and resistance has evolved during the commercial cultivation of this GM cotton event. During this study, the toxicity of Cry 1Ac and Cry 2Ab from the bacterium Bacillus thuringiensis to larvae of S. littoralis was assessed using first instar larvae with diet incorporation bioassays. Larvae reared (4 generations) from 2 populations of S. littoralis collected from major cotton-growing regions of Sohag and Assuit Governorates were tested. The LC50 for the Assuit strain was 140.11 and 88.54 μg/ml for Cry 1Ac and Cry 2Ab, respectively. While, the LC50 for the Sohag strain was 410.75 and 37.62 μg/ml for Cry 1Ac and Cry 2Ab, respectively. On the other hand, the laboratory strain was more sensitive for the same Cry’s (Cry 1Ac and Cry 2Ab) the LC50 was13.40 and 0.23 μg/ml, respectively. The lethal concentration (LC50) against S. littoralis for 2nd and 4th instars larvae when using the B. thuringiensis as spores (commercial product) was 1.16 and 2.49 for 2nd and 4th instars, respectively. This study is very important as a preliminary step and baseline ahead of the commercial cultivation and production of Genetically Modified cotton (Bt cotton).
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
