Summary information and primary citation

PDB-id
8w8n; SNAP-derived features in text and JSON formats; DNAproDB
Class
transcription-DNA-RNA
Method
X-ray (2.693 Å)
Summary
Thermus thermophilus initiation transcription complex in the pre-translocated state
Reference
Nova IC, Craig JM, Mazumder A, Laszlo AH, Derrington IM, Noakes MT, Brinkerhoff H, Yang S, Vahedian-Movahed H, Li L, Zhang Y, Bowman JL, Huang JR, Mount JW, Ebright RH, Gundlach JH (2024): "Nanopore tweezers show fractional-nucleotide translocation in sequence-dependent pausing by RNA polymerase." Proc.Natl.Acad.Sci.USA, 121, e2321017121. doi: 10.1073/pnas.2321017121.
Abstract
RNA polymerases (RNAPs) carry out the first step in the central dogma of molecular biology by transcribing DNA into RNA. Despite their importance, much about how RNAPs work remains unclear, in part because the small (3.4 Angstrom) and fast (~40 ms/nt) steps during transcription were difficult to resolve. Here, we used high-resolution nanopore tweezers to observe the motion of single Escherichia coli RNAP molecules as it transcribes DNA ~1,000 times improved temporal resolution, resolving single-nucleotide and fractional-nucleotide steps of individual RNAPs at saturating nucleoside triphosphate concentrations. We analyzed RNAP during processive transcription elongation and sequence-dependent pausing at the yrbL elemental pause sequence. Each time RNAP encounters the yrbL elemental pause sequence, it rapidly interconverts between five translocational states, residing predominantly in a half-translocated state. The kinetics and force-dependence of this half-translocated state indicate it is a functional intermediate between pre- and post-translocated states. Using structural and kinetics data, we show that, in the half-translocated and post-translocated states, sequence-specific protein-DNA interaction occurs between RNAP and a guanine base at the downstream end of the transcription bubble (core recognition element). Kinetic data show that this interaction stabilizes the half-translocated and post-translocated states relative to the pre-translocated state. We develop a kinetic model for RNAP at the yrbL pause and discuss this in the context of key structural features.

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