Preventing T7 RNA polymerase read-through transcription-A synthetic termination signal capable of improving bioprocess stability

Abstract

The phage-derived T7 RNA polymerase is the most prominent orthogonal transcriptions system used in the field of synthetic biology. However, gene expression driven by T7 RNA polymerase is prone to read-through transcription due to contextuality of the T7 terminator. The native T7 terminator has a termination efficiency of approximately 80% and therefore provides insufficient insulation of the expression unit. By using a combination of a synthetic T7 termination signal with two well-known transcriptional terminators (rrnBT1 and T7), we have been able to increase the termination efficiency to 99%. To characterize putative effects of an enhanced termination signal on product yield and process stability, industrial-relevant fed batch cultivations have been performed. Fermentation of a E. coli HMS174(DE3) strain carrying a pET30a derivative containing the improved termination signal showed a significant decrease of plasmid copy number (PCN) and an increase in total protein yield under standard conditions.

Keywords: T7 RNA polymerase; T7 terminator; contextuality; insulator; plasmid vector design; read-through transcription; recombinant protein expression.