Purification of synchronized Escherichia coli transcription elongation complexes by reversible immobilization on magnetic beads

Synchronized transcription elongation complexes (TECs) are a fundamental tool for in vitro studies of transcription and RNA folding. Transcription elongation can be synchronized by omitting one or more nucleoside triphosphates from an in vitro transcription reaction so that RNA polymerase can only transcribe to the first occurrence of the omitted nucleotide(s) in the coding DNA strand. This approach was developed over four decades ago and has been applied extensively in biochemical investigations of RNA polymerase enzymes but has not been optimized for RNA-centric assays. In this work, we describe the development of a system for isolating synchronized TECs from an in vitro transcription reaction. Our approach uses a custom 5′ leader sequence, called capture sequence 3-structure cassette 1 (C3-SC1), to reversibly capture synchronized TECs on magnetic beads. We first show, using electrophoretic mobility shift and high-resolution in vitro transcription assays, that complexes isolated by this procedure, called C3-SC1TECs, are >95% pure, >98% active, highly synchronous (94% of complexes chase in