Difference between revisions of "Part:BBa K2116012"

 
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<partinfo>BBa_K2116012 short</partinfo>
 
<partinfo>BBa_K2116012 short</partinfo>
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<p>
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We constructed a selection of AND gates responding to nitric oxide (NO) and 3OC6HSL (AHL). They were designed using the previously
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described NorV promoter [[Part:BBa_K1153000]]. This Promoter (from here on refered to as PnorV) is the native promoter controlling
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the nitric oxide reduction operon (norRVW) in <i>E. coli</i> [1]. Its transcriptional regulator, NorR, can bind to nitric
 +
oxide and activate gene expression. Using the distinct properties of esaboxes, PnorV was designed to also be responsive
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to AHL, giving it an AND gate behaviour. An esabox is an 18bp sequence to which the transcriptional regulator EsaR [[Part:BBa_K2116001]]
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can bind. Transcription can be initiated by the specific AHL EsaR responds to [N-(3-oxo-hexanoyl)-L-homoserine lactone].
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By placing one, two or three esaboxes at different positions in the vicinity of PnorV, different specificities for AHL and
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NO were reached. We created and characterized a collection of these kind of AND gates: <br>
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<ul>
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<li> [[Part:BBa_K2116004]]
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<li> [[Part:BBa_K2116005]]
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<li> [[Part:BBa_K2116006]]
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<li> [[Part:BBa_K2116012]]
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<li> [[Part:BBa_K2116013]]
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<li> [[Part:BBa_K2116014]]
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<li> [[Part:BBa_K2116007]]
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<li> [[Part:BBa_K2116008]]
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<li> [[Part:BBa_K2116068]]
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<li> [[Part:BBa_K2116015]]
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</ul>
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</p>
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<h1> Biology and Usage </h1>
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<p>Biological logic gates are useful for creating higher order genetic circuits. This AND gate has one esabox placed as a roadblock
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after PnorV transcription start site. It is regulated by a transcriptional
 +
activator, NorR, and a transcriptional repressor, EsaR. Transcription can be initiated by NO binding to NorR. EsaR sits
 +
on the esabox and blocks RNA polymerase from advancing. As soon as 3OC6HSL binds EsaR it is released and transcription can
 +
continue. This design makes the AND gate modular. The esabox/EsaR system can be exchanged for another transcriptional repression
 +
system to create another AND gate.
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</p>
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<h1>Characterization</h1>
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<p>
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    This part has not been properly characterised yet. Due to the similarity with part [[Part:BBa_K2116004]], we predict a similar behaviour with a slightly better repression of EsaR due to the increased spacing between PnorV and esabox.
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</p>
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<p></p>
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<h2>References:</h2>
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<ul>
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<li> [1] Gardner, A. M. "Regulation Of The Nitric Oxide Reduction Operon (Norrvw) In Escherichia Coli. ROLE OF Norr AND Sigma
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54 IN THE NITRIC OXIDE STRESS RESPONSE". Journal of Biological Chemistry 278.12 (2003): 10081-10086.</li>
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<li> [2] Shong, Jasmine and Cynthia H. Collins. "Engineering The Esar Promoter For Tunable Quorum Sensing-Dependent Gene Expression".
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ACS Synth. Biol. 2.10 (2013): 568-575. </li>
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This AND gate was constructed by adding an esabox right before the sigma 54 binding site of PnorV.
 
[[File:T--ETH Zurich--p103.png|thumb|400px|AND gate design.]]
 
  
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<!-- Add more about the biology of this part here
 
===Usage and Biology===
 
===Usage and Biology===
  
 
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<span class='h3bb'>Sequence and Features</span>
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<span class='h3bb'>Sequence and Features</span>
<partinfo>BBa_K2116012 SequenceAndFeatures</partinfo>
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<partinfo>BBa_K2116012 SequenceAndFeatures</partinfo>
  
  
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===Functional Parameters===
 
===Functional Parameters===
 
<partinfo>BBa_K2116012 parameters</partinfo>
 
<partinfo>BBa_K2116012 parameters</partinfo>
 
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Latest revision as of 14:47, 30 October 2016

AND gate with Nitric Oxide and AHL as inputs

We constructed a selection of AND gates responding to nitric oxide (NO) and 3OC6HSL (AHL). They were designed using the previously described NorV promoter Part:BBa_K1153000. This Promoter (from here on refered to as PnorV) is the native promoter controlling the nitric oxide reduction operon (norRVW) in E. coli [1]. Its transcriptional regulator, NorR, can bind to nitric oxide and activate gene expression. Using the distinct properties of esaboxes, PnorV was designed to also be responsive to AHL, giving it an AND gate behaviour. An esabox is an 18bp sequence to which the transcriptional regulator EsaR Part:BBa_K2116001 can bind. Transcription can be initiated by the specific AHL EsaR responds to [N-(3-oxo-hexanoyl)-L-homoserine lactone]. By placing one, two or three esaboxes at different positions in the vicinity of PnorV, different specificities for AHL and NO were reached. We created and characterized a collection of these kind of AND gates:


Biology and Usage

Biological logic gates are useful for creating higher order genetic circuits. This AND gate has one esabox placed as a roadblock after PnorV transcription start site. It is regulated by a transcriptional activator, NorR, and a transcriptional repressor, EsaR. Transcription can be initiated by NO binding to NorR. EsaR sits on the esabox and blocks RNA polymerase from advancing. As soon as 3OC6HSL binds EsaR it is released and transcription can continue. This design makes the AND gate modular. The esabox/EsaR system can be exchanged for another transcriptional repression system to create another AND gate.

Characterization


This part has not been properly characterised yet. Due to the similarity with part Part:BBa_K2116004, we predict a similar behaviour with a slightly better repression of EsaR due to the increased spacing between PnorV and esabox.



References:


  • [1] Gardner, A. M. "Regulation Of The Nitric Oxide Reduction Operon (Norrvw) In Escherichia Coli. ROLE OF Norr AND Sigma 54 IN THE NITRIC OXIDE STRESS RESPONSE". Journal of Biological Chemistry 278.12 (2003): 10081-10086.
  • [2] Shong, Jasmine and Cynthia H. Collins. "Engineering The Esar Promoter For Tunable Quorum Sensing-Dependent Gene Expression". ACS Synth. Biol. 2.10 (2013): 568-575.

  • Sequence and Features


    Assembly Compatibility:
    • 10
      COMPATIBLE WITH RFC[10]
    • 12
      COMPATIBLE WITH RFC[12]
    • 21
      COMPATIBLE WITH RFC[21]
    • 23
      COMPATIBLE WITH RFC[23]
    • 25
      COMPATIBLE WITH RFC[25]
    • 1000
      COMPATIBLE WITH RFC[1000]