Difference between revisions of "Part:BBa K598001"

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<h2>Background</h2>
 
<h2>Background</h2>
  
Riboswitches are structural domains embedded within the non-coding region of mRNA, performing as RNA-based genetic control elements that regulate gene expression in a ligand-dependent manner through direct, small molecule-RNA interactions without assistance of proteins. Over past several years, a number of natural riboswitches have been reported in literatures, sensing small molecules including coenzyme B1 and B12, FMN, SAM, lysine, guanine, adenine, TPP and theophylline [1]. Riboswitches are typically comprised of an aptamer domain, which recognizes a specific ligand with high specificity and affinity folding as a binding pocket [2]. The binding induces structural reorganization of aptamer and consequently influences the folding of adjoining expression platform, which varies due to different mechanisms of regulation.
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Riboswitches are structured non-coding RNA domains performing as genetic control elements, regulating gene expression through ligand-RNA interactions without assistance of proteins. Several natural riboswitches have been reported, sensing small molecules including vitamin B1 and B12, FMN, SAM, lysine, guanine, adenine, TPP and theophylline [1]. Various mechanisms are utilized to regulate gene expression, ranging from transcription initiation to translation attenuation.
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Theophylline responsive riboswitches have been widely studied in recent years. Theophylline is small molecule which is passable through bacterial cytomembrane, but not an essential nutrient of bacteria. Although theophylline has moderate toxicity leading to growth inhibition in logarithmic phase with 15mM theophylline in LB medium, this theophylline responsive riboswitch shows an approving regulation curve under 10mM theophylline concentration with negligible growth inhibition in M9 liquid medium (Fig.1).

Revision as of 14:21, 5 October 2011

Theophylline Responsive Riboswitch 1G1 with Engineered RBS+GFP generator

This is a GFP generator regulated by theophylline responsive riboswitch. mRNA with a theophylline riboswitch in it responds to theophylline concerntration, producing different fluorescence strength of GFP. Regulated by different promoters, it would be used to demonstrate theophylline responsive curve, providing data for modeling.


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal XhoI site found at 71
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI.rc site found at 730


Background

Riboswitches are structured non-coding RNA domains performing as genetic control elements, regulating gene expression through ligand-RNA interactions without assistance of proteins. Several natural riboswitches have been reported, sensing small molecules including vitamin B1 and B12, FMN, SAM, lysine, guanine, adenine, TPP and theophylline [1]. Various mechanisms are utilized to regulate gene expression, ranging from transcription initiation to translation attenuation.

Theophylline responsive riboswitches have been widely studied in recent years. Theophylline is small molecule which is passable through bacterial cytomembrane, but not an essential nutrient of bacteria. Although theophylline has moderate toxicity leading to growth inhibition in logarithmic phase with 15mM theophylline in LB medium, this theophylline responsive riboswitch shows an approving regulation curve under 10mM theophylline concentration with negligible growth inhibition in M9 liquid medium (Fig.1).