RESUMO
A promoter is a region in the genome sequence located upstream of the transcription start site comprising cis acting elements that initiates and regulates the transcription of an associated genes and restriction endonucleases. As the need for genetically engineered plants has widened, the requirement to develop methods to optimize the control of transgene expression has also increased. Therefore, analyzing the functionality of the promoter is very important in understanding the target gene expression. The widespread use of viral constitutive promoters (cauliflower mosaic virus, CaMV35) has raised concerns about the safety and containment of transgene in the environment. Hence isolation and characterization of novel promoters using fast and efficient genetic engineering tools is the need of the hour. The present study, for the first time, describes the isolation and characterization of a novel constitutive promoter driving ubiquitin E3 ligase from the plant Coleus amboinicus, a perennial herb, of the Lamiaceae family. The functionality of the isolated promoter was demonstrated using the ß -glucuronidase as a reporter in tobacco var Petit havana. The development of blue color in the tobacco leaves indicated the presence of a functional promoter.