Litcius/Paper detail

Engineering efficient termination of bacteriophage T7 RNA polymerase transcription

Diana G. Calvopina-Chavez, Mikaela A. Gardner, Joel S. Griffitts

2022G3 Genes Genomes Genetics39 citationsDOIOpen Access PDF

Abstract

The bacteriophage T7 expression system is one of the most prominent transcription systems used in biotechnology and molecular-level research. However, T7 RNA polymerase is prone to read-through transcription due to its high processivity. As a consequence, enforcing efficient transcriptional termination is difficult. The termination hairpin found natively in the T7 genome is adapted to be inefficient, exhibiting 62% termination efficiency in vivo and even lower efficiency in vitro. In this study, we engineered a series of sequences that outperform the efficiency of the native terminator hairpin. By embedding a previously discovered 8-nucleotide T7 polymerase pause sequence within a synthetic hairpin sequence, we observed in vivo termination efficiency of 91%; by joining 2 short sequences into a tandem 2-hairpin structure, termination efficiency was increased to 98% in vivo and 91% in vitro. This study also tests the ability of these engineered sequences to terminate transcription of the Escherichia coli RNA polymerase. Two out of 3 of the most successful T7 polymerase terminators also facilitated termination of the bacterial polymerase with around 99% efficiency.

Topics & Concepts

Terminator (solar)BiologyAntiterminationRNA polymeraseT7 RNA polymerasePolymeraseTranscription (linguistics)Termination factorBacteriophageProcessivityRNA polymerase IIMolecular biologyGeneticsRNA-dependent RNA polymeraseRNADNAEscherichia coliGenePromoterGene expressionLinguisticsPhilosophyIonosphereAstronomyPhysicsBacteriophages and microbial interactionsBacterial Genetics and BiotechnologyRNA and protein synthesis mechanisms