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.