Transcription factors play important roles not only in the development of floral organs but also in the formation of floral characteristics in various plant species. Therefore, transcription factors are reasonable targets for modifying these floral traits and generating new flower cultivars. However, it has been difficult to control the functions of transcription factors because most plant genes, including those encoding transcription factors, exhibit redundancy. In particular, it has been difficult to understand the functions of these redundant genes by genetic analysis. Thus, a breakthrough silencing method called chimeric repressor gene silencing technology (CRES-T) was developed specifically for plant transcription factors. This method transforms transcriptional activators into dominant repressors, and the artificial chimeric repressors suppress the function of transcription factors regardless of their redundancy. Among these chimeric repressors, some were found to be inappropriate for expression throughout the plant body because they resulted in deformities. For these chimeric repressors, utilization of floral organ-specific promoters overcomes this problem by avoiding expression throughout the plant body. In contrast, attachment of viral activation domain VP16 to transcriptional repressors effectively alters into transcriptional activators. This review presents the importance of transcription factors for characterizing floral traits, describes techniques for controlling the functions of transcription factors.
Keywords: CRES-T; chimeric repressor; floral trait; promoter; transcription factor.