Production of insect-resistant transgenic rice plants for use in practical agriculture

Plant biotechnology provides a powerful solution to boost agricultural productivity and nutritional quality. The development process of a transgenic crop includes multiple steps that consist of gene isolation for a target trait, generation of T0 transgenic crops, characterization of the transgene, evaluation of agronomic performance of transgenic crops, selection of elite transgenic lines and assessment of target trait efficacy. Here, we developed elite insect-resistant transgenic rice plants that may satisfy the standards of biosafety assessments. We made a construct with the insecticide cry1Ac gene for a target trait. A total of 310 T0 transgenic lines were generated and underwent extensive analysis. We selected four T3 lines that contain a single-copy transgene inserted into intergenic regions of the rice genome. During this process, we critically analyzed the transgenic lines with five checkpoints that include single copy of transgene, its integration into intergenic region, clean T-DNA arrangement, stability of transgene through generations and substantial equivalence of transgenic plants in agronomic traits other than insect resistance. Consequently, we obtained insect-resistant transgenic rice plants that can be used in practical agriculture.