TY - JOUR T1 - A Novel Initiation Pathway in <em>Escherichia Coli</em> Transcription JF - bioRxiv DO - 10.1101/042432 SP - 042432 AU - Eitan Lerner AU - SangYoon Chung AU - Benjamin L. Allen AU - Shuang Wang AU - Jookyung J. Lee AU - Winson S. Lu AU - Wilson L. Grimaud AU - Antonino Ingargiola AU - Xavier Michalet AU - Yazan Alhadid AU - Sergei Borukhov AU - Terence Strick AU - Dylan J. Taatjes AU - Shimon Weiss Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/03/04/042432.abstract N2 - Initiation is a rate-limiting step in transcription. We employed a series of approaches to examine the kinetics of RNA polymerase (RNAP) transcription initiation in greater detail. We show that, contrary to expectations, RNAP exit kinetics from later stages of initiation (e.g. from a 7-base transcript) was markedly slower than from earlier stages. Further examination implicated a previously unidentified intermediate in which RNAP adopted a long-lived backtracked state during initiation. In agreement, the RNAP-GreA endonuclease accelerated transcription kinetics from otherwise delayed initiation states and prevented RNAP backtracking. Our results indicate a previously uncharacterized RNAP initiation state that could be exploited for therapeutic purposes and may reflect a conserved intermediate among paused, initiating eukaryotic enzymes.One Sentence Summary: A previously undiscovered RNA polymerase initiation state is described, in which the nascent RNA backtracks and the enzyme pauses. ER -