Synthetic Genes for Antimicrobial Peptides

Borrelli, Alexander P

28 April 2003

The goal of this project was to clone and express the antimicrobial peptide protegrin 1 (PG-1). Initially a yeast system was chosen but was discarded due to technical difficulties. Invitrogen's bacterial T7 expression system was chosen next to express the peptide. PG-1 expression was verified by anti-his immunoblot and then the peptide was purified by IMAC. Its activity was verified using a Bacillus subtillis radial diffusion assay.

antimicrobial peptides

protegrins

synthetic genes

Peptide antibiotics

Gene expression

Protegrins

Validation of RNAi Silencing Specificity Using Synthetic Genes: Salicylic Acid-Binding Protein 2 Is Required for Innate Immunity in Plants

Kumar, Dhirendra, Gustafsson, Claes, Klessig, Daniel F.

01 March 2006

RNA interference (RNAi) is widely used to specifically silence the expression of any gene to study its function and to identify and validate therapeutic targets. Despite the popularity of this technology, recent studies have shown that RNAi may also silence non-targeted genes. Here we demonstrate the utility of a quick, efficient and robust approach to directly validate the specificity of RNAi as an alternative to indirect validation of RNAi through gene expression profiling. Our approach involves reversing (complementing) the RNAi-induced phenotype by introducing a synthetic version of the target gene that is designed to escape silencing. This synthetic gene complementation approach can also be used for mutational analysis of the target gene, or to provide a functional version of a defective protein after silencing the defective gene by RNAi. Using this approach we demonstrate that the loss of systemic acquired resistance, a form of innate immunity in plants, is indeed due to the silencing of salicylic acid-binding protein 2 rather than to off-target effects.

off-target effects

RNAi

synthetic genes

systemic acquired resistance