Difference between revisions of "S-box Element"

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The S-box element is a [[riboswitch]] that controls different genes of sulphur metabolism in  response to the presence of S-adenosylmethionine.  
 
The S-box element is a [[riboswitch]] that controls different genes of sulphur metabolism in  response to the presence of S-adenosylmethionine.  
 
* Upon binding of SAM, the [[riboswitch]] adopts a terminator structure resulting in transcription termination.
 
* Upon binding of SAM, the [[riboswitch]] adopts a terminator structure resulting in transcription termination.
* In the aabsence of SAM, the [[riboswitch]] has the antitermination structure that allows transcription elongation into the controlled gene/ operon.
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* In the absence of SAM, the [[riboswitch]] has the antitermination structure that allows transcription elongation into the controlled gene/ operon.
 
* S-box riboswitch turnover is initiated by [[rny |RNase Y]]  {{PubMed|19779461}}
 
* S-box riboswitch turnover is initiated by [[rny |RNase Y]]  {{PubMed|19779461}}
  
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==References==
 
==References==
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<pubmed> 18039762,12626738 ,17381302 19779461 12787499 18039762 18443629 20951706 22543867 28701520</pubmed>
  
<pubmed> 18039762,12626738 ,17381302 19779461 </pubmed>
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=See also:=
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* [[RNA switch]]
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=Back to [[regulons]]=

Latest revision as of 09:03, 14 July 2017

The S-box element is a riboswitch that controls different genes of sulphur metabolism in response to the presence of S-adenosylmethionine.

  • Upon binding of SAM, the riboswitch adopts a terminator structure resulting in transcription termination.
  • In the absence of SAM, the riboswitch has the antitermination structure that allows transcription elongation into the controlled gene/ operon.
  • S-box riboswitch turnover is initiated by RNase Y PubMed

Genes controlled by a S-box

References


See also:

Back to regulons