Sigma factor: Difference between revisions

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&nbsp;Sigma (σ)&nbsp;factor is a small protein subunit, which associates with the core RNA polymerase, to form a holoenzyme. It recognises a specific sequence of DNA, the promotor, where the holoenzyme binds tightly to the DNA, initiating transcription. The sigma factor increases the affinity of RNA polymerase for the promotor region. After transcription has progressed about 10 bases the sigma factor is released<ref>Alberts, Johnson, Lewis, Raff, Roberts, Walter (2008) Molecular Biology of the Cell, 5th Edition. New York: Garland Science p336</ref>. In ''E. coli ''the main sigma factor is&nbsp;σ <sup>70</sup>, however, many others exist.  
Sigma (σ)&nbsp;factor is a small protein subunit, which associates with the core [[RNA polymerase|RNA polymerase]], to form a [[Holoenzyme|holoenzyme]]. It recognises a specific sequence of [[DNA|DNA]], the promoter, where the holoenzyme binds tightly to the DNA, initiating transcription. The sigma factor increases the affinity of RNA polymerase for the promoter region. After transcription has progressed about 10 bases the sigma factor is released<ref>Alberts, Johnson, Lewis, Raff, Roberts, Walter (2008) Molecular Biology of the Cell, 5th Edition. New York: Garland Science p336</ref>. In ''[[E. coli|E. coli]] ''the main sigma factor is&nbsp;σ <sup>70</sup>, however, many others exist.<br>


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In bacteria there is a large range of sigma subunits, each directing the RNA polymerase to different promoters. The following table gives a few examples of the promoters that different sigma factors recognise<ref>B.Alberts et al (2008) Molecualr biology of the cell, 5th edition, New York, Garland Science, page 439</ref>.
 
In bacteria there is a large range of sigma subunits, each directing the RNA polymerase to different promoters. The following table gives a few examples of the promoters that different sigma factors recognise. <references />


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<u>References</u>
=== References ===


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B. Alberts et al (2008) Molecular biology of the cell, 5th edition, New York, Garland Science, page 439

Latest revision as of 11:14, 4 December 2018

Sigma (σ) factor is a small protein subunit, which associates with the core RNA polymerase, to form a holoenzyme. It recognises a specific sequence of DNA, the promoter, where the holoenzyme binds tightly to the DNA, initiating transcription. The sigma factor increases the affinity of RNA polymerase for the promoter region. After transcription has progressed about 10 bases the sigma factor is released[1]. In E. coli the main sigma factor is σ 70, however, many others exist.

In bacteria there is a large range of sigma subunits, each directing the RNA polymerase to different promoters. The following table gives a few examples of the promoters that different sigma factors recognise[2].

Sigma factor promoter recognised
σ54 genes that are involved in nitrogen metabolism
σ24 genes involved in the dealing of misfolded proteins
σ28 genes that are involved in chemotaxis and motility (ability to move independatly and impulsively)


References

  1. Alberts, Johnson, Lewis, Raff, Roberts, Walter (2008) Molecular Biology of the Cell, 5th Edition. New York: Garland Science p336
  2. B.Alberts et al (2008) Molecualr biology of the cell, 5th edition, New York, Garland Science, page 439
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