Alan C. M. Cheung scite author profile

Transcription of ribosomal RNA by RNA polymerase (Pol) I initiates ribosome biogenesis and regulates eukaryotic cell growth. The crystal structure of Pol I fromthe yeast Saccharomyces cerevisiae at 2.8A˚ resolution reveals all 14 subunits of the 590-kilodalton enzyme, and shows differences to Pol II. An ‘expander’ element occupies the DNA template site and stabilizes an expanded active centre cleft with an unwound bridge helix. A ‘connector’ element invades the cleft of an adjacent polymerase and stabilizes an inactive polymerase dimer. The connector and expander must detach during Pol I activation to enable transcription initiation and cleft contraction by convergent movement of the polymerase ‘core’ and ‘shelf’ modules. Conversion between an inactive expanded and an active contracted polymerase state may generally underlie transcription. Regulatory factors can modulate the core–shelf interface that includes a ‘composite’ active site for RNA chain initiation, elongation, proofreading and termination

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Architecture of the RNA polymerase-Spt4/5 complex and basis of universal transcription processivity

Martínez-Rucobo

et al. 2011

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Architecture of the RNA polymerase–Spt4/5 complex and basis of universal transcription processivitySpt5 and NusG play a conserved role in stimulating RNA polymerase II transcription elongation and processivity. Here, the crystal structure of Spt4/5 bound to the RNA polymerase clamp domain reveals that the factor binds above DNA and RNA in the active centre cleft preventing premature dissociation of the polymerase.

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Alan C. M. Cheung

Structural basis of RNA polymerase II backtracking, arrest and reactivation

RNA polymerase I structure and transcription regulation

Architecture of the RNA polymerase-Spt4/5 complex and basis of universal transcription processivity

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