One Sentence Summary:Q forms a "nozzle" that narrows the RNA polymerase RNA-exit channel and extrudes ssRNA, preventing formation of RNA hairpins.
Abstract:Lambdoid bacteriophage Q protein mediates the switch from middle to late bacteriophage gene expression by enabling RNA polymerase (RNAP) to read through transcription terminators preceding bacteriophage late genes. Q loads onto RNAP engaged in promoter-proximal pausing at a Q binding element (QBE) and an adjacent sigma-dependent pause element (SDPE) to yield a "Q-loading complex,"and Q subsequently translocates with RNAP as a pausing-deficient, termination-deficient "Q-loaded complex." Here, we report high-resolution structures of four states on the pathway of antitermination by Q from bacteriophage 21 (Q21): Q21, the Q21-QBE complex, the Q21-loading complex, and the Q21-loaded complex. The results show that Q21 forms a torus--a "nozzle"--that narrows and extends the RNAP RNA-exit channel, extruding single-stranded RNA and preventing formation of pause and terminator hairpins.
Main Text:Lambdoid bacteriophage Q protein regulates gene expression through transcription antitermination, a mechanism of regulation that is widely used in bacteria and bacteriophage but that has been poorly understood (1-10; reviewed in 11-13).Q mediates the temporal switch from middle to late bacteriophage gene expression by enabling RNA polymerase (RNAP) to read through a transcription terminator preceding bacteriophage late genes ( Fig. 1A; 1-13). The Q-dependent gene regulatory cassette consists of the gene for Q followed by a transcription unit comprising a promoter (PR'), a promoter-proximal σ-dependent pause element (SDPE; a sequence resembling a promoter -10 element, at which σR2, the σ-factor module that recognizes promoter -10 elements, re-establishes sequence-specific protein-DNA interactions), and a terminator, followed by bacteriophage late genes. In the absence of Q, RNAP initiating transcription at the PR' promoter pauses at the SDPE and terminates at the terminator, and late genes are not expressed; in the presence of Q, RNAP initiating at the PR' promoter, escapes the SDPE and reads through the terminator, and late genes are expressed.
2Q is targeted to the PR' transcriptional unit through a multi-step process entailing: (i) formation of a "Q-loading complex" comprising a Q protein bound to a Q binding element (QBE) and a σ-containing transcription elongation complex (TEC) paused at the SDPE, and (ii) transformation into a "Q-loaded complex" comprising a Q-containing TEC that translocates processively, ignores pause elements, and ignores terminators (Fig. 1B; 3-13).Here, we report a set of four structures that define the structural basis of antitermination by Q from lambdoid bacteriophage Q21 (Q21; 11,14-15): i.e., (i) a crystal structure of Q21, (ii) a crystal structure of the Q21-QBE complex, (iii) a cryo-EM structure of the Q-loading complex, and (4) a cryo-EM structure of the Q-loaded complex.We solved a crystal structure of Q21 at 1.9 Å resolution by use of single...
