Salt and drought stresses affect virtually every aspect of plant physiology and metabolism and thus limiting the productivity of crop plants worldwide. Salt and drought tolerance and adaptation in rice has been improved by engineering various genes related to transcription, signaling, accumulation of antioxidants and compatible solutes etc. Previously, we have produced 2,000 non-GM mutants induced by Tos17 in rice. We analyzed >2,000 flanking sequences of newly transposed Tos17 copies by the adaptor-ligation PCR method. We also identified significantly up- or down-regulated genes under drought, salt, or ABA stress in rice based on expression microarray data, which previously were performed from leaf at different developmental stages and conditions. For screening and characterizing the salt or drought tolerance mutations by extensive phenotypic analysis as well as the functional analysis of genes, we selected 133 mutant lines. To evaluate rice phenotypic traits under abiotic stress condition, we plan to investigate phenomics, which integrates technologies such as photonics, biology, computers, and robotics.

• Joung Sug Kim(Division of Bioscience and Bioinformatics, Myongji University)
• Kyong-Mi Jun(Plant molecular genetics Institute, GreenGene Biotech Inc.)
• Hyejin Yoon(Rural Development Administration)
• Songhwa Chae(Division of Bioscience and Bioinformatics, Myongji University)
• Yoon Mok Pahk(Plant molecular genetics Institute, GreenGene Biotech Inc.)
• Yeon-Ki Kim(Division of Bioscience and Bioinformatics, Myongji University)
• Baek-hie Nahm(Division of Bioscience and Bioinformatics, Myongji University, Plant molecular genetics Institute, GreenGene Biotech Inc.) Corresponding Author