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INITIATION

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In the initiation process, a single nucleoside triphosphate (usually an ATP or guanosine triphosphate [GTP]) enters through the secondary channel and pairs with nucleotide + 1 (usually a T or C, respectively) in the template strand in the active site of the enzyme. Then, a second nucleoside triphosphate enters, and if that nucleoside triphosphate can base pair with the +2 nucleotide of the template strand, a phosphodiester bond forms between its α phosphate and the 3′ hydroxyl of the first nucleotide, releasing two phosphates in the form of pyrophosphate (Figure 2.5A). This is called the initiation complex or initial transcription complex and is the step at which the antibiotic rifampin can block transcription (see Box 2.1). Rifampin binds to RNA polymerase in the β-subunit face of the active-site channel in such a way that the growing RNA encounters it when it reaches a length of only 2 or 3 nucleotides, preventing further growth of the RNA chain and freezing the RNA polymerase on the promoter. This explains why rifampin blocks only the initiation of transcription.

Even in the absence of the antibiotic rifampin, the RNA polymerase is not yet free to continue transcription. When the RNA chain grows to a length of about 10 nucleotides, it encounters the σ3.2 loop, which blocks the site in RNA polymerase through which the newly synthesized RNA will emerge, a region called the exit channel (Figure 2.11). This causes transcription to stop, often releasing a short transcript about 10 nucleotides in length. This process is called abortive initiation and occurs to various degrees on many promoters for reasons that are not well understood. Eventually, a growing (or nascent) transcript pushes the σ3.2 loop aside and enters the exit channel, usually causing the σ factor to be released from the core RNA polymerase. At this point, designated promoter escape, RNA polymerase has left the promoter site and has entered the elongation phase, during which the transcription bubble is enlarged to 17 bp, the complex is stabilized, and synthesis of RNA proceeds efficiently as the enzyme moves along the DNA template.

Figure 2.8 Overview of transcription. (A) The transcription cycle. Each step is discussed separately in the text. (B) Summary of the major steps in transcription initiation. R, RNA polymerase; P, promoter DNA; AP, abortive products; dsDNA, double-stranded DNA. Modified from Geszvain K, Landick R, in Higgins NP (ed), The Bacterial Chromosome (ASM Press, Washington, DC, 2005).


Figure 2.9 Transcription initiation. (A) Binding of σ to RNA polymerase core. (B) RNA polymerase holoenzyme binds to promoter DNA. (C) The initial RNA polymerase-promoter complex contains fully double-stranded DNA and is called the closed complex (RPC). (D) The RNA polymerase-promoter complex isomerizes to form the open complex (RPO).

Snyder and Champness Molecular Genetics of Bacteria

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