The impact of transgenic Bt maize plant contained Cry1F was evaluated on the oat aphid Rhopalosiphum padi as a non-target insect species. Slightly reduced rates of survival and alata vivipar production were observed on Bt maize than on the non-Bt maize. In addition, slightly low preference to Bt maize plant was observed. Aphid fecundity, measured as the number of offspring produced for 7 days, was higher on Bt maize than on non-Bt maize but not different significantly. ELISA test using Cry1F-antibody revealed that 26% of Cry1F protein compared to the positive control was detected from the whole body of R. padi when the insects were fed Bt maize for 50 days, showing that R. padi can carry Cry1F protein to the higher trophic level when exposed to Bt maize. Taken together, the Bt maize plant is not likely to cause any negative side impacts on non-target insect R. padi but Bt toxin can be transferred to higher predators via R. padi as it carries the toxin.
Large amounts of genetically modified (GM) grains, including maize, cotton and soybean, have been imported to Korea for food, feed and processing (FFP). To evaluatethe environmental impacts, particularly on non-target insects, of FFP GM grains of unknown source, it is a prerequisite to identify Cry protein types in the test GM grains and to establish proper risk assessment protocols. Imported GM maize grains were randomly obtained and their Cry toxins were analyzed by ELISA using Cry1A, Cry1F, and Cry3A antibodies. Since all tested GM maize grains contained Cry1A, Tenebrio molitor, a non-lepidopteran species, was selected as a non-target insect species. A domestic maize strain was used as a non-GM control, which did not show any differences in major nutritional composition from the GM maize grain. Slightly increased survival rate and head capsule width of T. molitor larvae were observed when reared on GM maize powder, demonstrating no sub-chronic adverse effects of GM maize on T. molitor larvae. Head capsule width of T. molitor neonate increased steadily from hatch to 70-day-old, regardless of being fed Bt or non-Bt maize. ELISA test using Cry1A-antibody revealed that concentration of Cry1A protein slowly increased in the whole body of T. molitor from 0 to 50 post-feeding days when the insects were fed GM maize but rapidly decreased within 5 days when Bt maize-fed larvae were transferred to non-Bt maize, showing that the Cry toxin is not accumulated inside the body of T. molitor once the exposure source is removed. In addition, no Cry protein was detected in the hemolymph of the larvae reared on Bt maize, suggesting little possibility of Cry toxin exposure to higher tropic level. Taken together, the imported GM-maize grains is not likely to cause any side impacts on non-target insect T. molitor.
To develop an advanced baculovirus insecticide with additional advantages, such as higher toxicity and recovering to wild-type baculovirus, a novel recombinant baculovirus, NeuroBactrus was constructed. Bacillus thuringiensis crystal protein gene (cry1-5) and an insect-specific neurotoxin gene (AaIT) were introduced into Autographa californica nucleopolyhedrovirus genome by fusion of polyhedrin-cry1-5-polyhedrin under the control of poyhedrin gene promoter, and by fusion of orf603 partial genes and AaIT under the control of early promoter of ORF3006 from Cotesia plutellae bracovirus. About 150 kDa of Polyhedrin-Cry1-5-Polyhedrin fusion protein expressed by NeuroBactrus was occluded into the polyhedra, and activated as about 65 kDa of crystal protein when treated with trypsin. RT-PCR analysis indicated that transcription of AaIT gene occurs by 2 h postinfection (p.i.) and increased at 16 h p.i.. NeuroBactrus showed high toxicity against Plutella xylostella larvae and significant reduction in median lethal time (LT50) against Spodoptera exigua larvae compared to those of wild-type AcNPV. Re-recombinants derived from NeuroBactrus, NBt-Del5 (deleted cry1-5), NBt-DelA (deleted AaIT) and NBt-Del5A (deleted cry1-5 and AaIT; wild-type baculovirus) were generated in serial passages in vitro. This result showed that the NeuroBactrus could be transferred to wild-type baculovirus along with serial passages by the homologous recombination between two polyhedrin genes and two partial orf603 genes.
The effects of pollens of Bt Chinese cabbage (Brassica campestris), expressing the insecticidal protein Cry1Ac toxin (Bt Chinese cabbage) on Bombix mori larvae, were determined in laboratory studies. When reared on an artificial diet containing pollens of Bt Chinese cabbage, decreased survival rate and body weight of B. mori larvae were observed. ELISA test using Cry1Ac-antibody implied that the Cry toxin was detected not only in the whole body and alimentary canal but also in the hemolymph and remaining body parts, suggesting that the ingested Cry1Ac protein is distributed inside the body through epithelial membrane of the midgut of B. mori. Taken together, it was suggested that the pollens of Bt Chinese cabbage adversely affect non-target insect B. mori larvae.