Structure of a T7 RNA Polymerase Elongation Complex at 2.9 A Resolution

Overview

Journal Nature

Specialty Science

Date 2002 Nov 8

PMID 12422209

Citations 107

Authors

Tahir H Tahirov

Dmitry Temiakov

Michael Anikin

Vsevolod Patlan

William T McAllister

Dmitry G Vassylyev

Shigeyuki Yokoyama

Affiliations

Soon will be listed here.

Abstract

The single-subunit bacteriophage T7 RNA polymerase carries out the transcription cycle in an identical manner to that of bacterial and eukaryotic multisubunit enzymes. Here we report the crystal structure of a T7 RNA polymerase elongation complex, which shows that incorporation of an 8-base-pair RNA-DNA hybrid into the active site of the enzyme induces a marked rearrangement of the amino-terminal domain. This rearrangement involves alternative folding of about 130 residues and a marked reorientation (about 130 degrees rotation) of a stable core subdomain, resulting in a structure that provides elements required for stable transcription elongation. A wide opening on the enzyme surface that is probably an RNA exit pathway is formed, and the RNA-DNA hybrid is completely buried in a newly formed, deep protein cavity. Binding of 10 base pairs of downstream DNA is stabilized mostly by long-distance electrostatic interactions. The structure implies plausible mechanisms for the various phases of the transcription cycle, and reveals important structural similarities with the multisubunit RNA polymerases.

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