PNNL

Abstract

Optimization of the transgene expression system is one of the critical steps for the high level production of heterologous proteins in plants, where the promoter is a key component regulating transgene expression. In this study, the activity of the rpL34 promoter was analyzed in transgenic tobacco (Nicotiana tabacum) NTI calli. A DNA fragment containing the rpL34 promoter and the reporter gene B-D-glucuronidase (GUS) were cloned into binary vector pZD427 to generate the transgene expression vector pZD428. The insertion was verified by enzyme restriction digestion and agarose gel electrophoresis analyses. The DNA fragment containing the rpL34 promoter and GUS reporter gene was then integrated into the tobacco genomes via Agrobacterium funiefaciens-mediated NT] suspension cell transformation. The transformed CaNi were induced on Murashige and Skoog (MS) plates containing proper amounts of 2,4-D, cefotoxime, and kanamycin. Two hundred and sixty transformed calli were harvested for GUS activity and protein concentration measurements. GUS activity analyses revealed the specific activity up to 278,358 units per milligram total soluble protein. The GUS activity under the control of the rpL34 promoter is much higher than that under the control of the cauliflower mosaic virus 35S promoter, a commonly used promoter in plant biology. These results suggest that the rpL34 promoter is one of the most active promoters that can be used for heterologous protein production in calli and suspension cells.