Difference between revisions of "Part:BBa K2973013"

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A key aspect of our project is to provide a tool that can detect the DNA of any organism easily and reliably. To that end, we designed, a pool of universal toehold switches from hyperthermophile bacteria ,<i>in silico</i>. One of them was Toehold No.13. The reporter gene attached to the toehold switch is β-lactamase.
 
A key aspect of our project is to provide a tool that can detect the DNA of any organism easily and reliably. To that end, we designed, a pool of universal toehold switches from hyperthermophile bacteria ,<i>in silico</i>. One of them was Toehold No.13. The reporter gene attached to the toehold switch is β-lactamase.
  
To assess the new toehold's performance, we performed a series of <i>in vitro</i> protein synthesis reactions. The in vitro transcription/ translation reactions were done using the PURExpress® <i>In Vitro</i> Protein Synthesis kit. To reduce the cost of the reaction, we lowered the reaction volume from 25 to 7 μL. The incubation time was 3 hours. After the 3-hour incubation in the cell-free system, the chromogenic substrate of β-lactamase, nitrocefin, was added and an additional 14-minute enzymatic assay was performed in the plate reader, at 37oC.   
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To assess the new toehold's performance, we performed a series of <i>in vitro</i> protein synthesis reactions. The in vitro transcription/ translation reactions were done using the PURExpress® <i>In Vitro</i> Protein Synthesis kit. To reduce the cost of the reaction, we lowered the reaction volume from 25 to 7 μL. The incubation time was 3 hours. After the 3-hour incubation in the cell-free system, the chromogenic substrate of β-lactamase, nitrocefin, was added and an additional 15-minute enzymatic assay was performed in the plate reader, at 37oC.   
  
 
The performance of our designed Toehold 13,is depicted below.
 
The performance of our designed Toehold 13,is depicted below.

Revision as of 20:26, 19 October 2019


Trigger for Toehold switch 13 Geobacillus kaustophilus

Toehold switch systems are composed of two RNA strands referred to as the switch and trigger. Upstream of the coding sequence is a hairpin-based processing module containing both a strong RBS and a start codon that is followed by a common 21 nt linker sequence coding for low-molecular-weight amino acids added to the N terminus of the gene of interest. A single-stranded toehold sequence at the 5’ end of the hairpin module provides the initial binding site for the trigger RNA strand. This trigger molecule contains an extended single stranded region (36bp) that completes a branch migration process with the hairpin to expose the RBS and start codon, thereby initiating translation of the coding gene. This trigger sequence was derived from the 16S rRNA sequence of Geobacillus kaustophilus.


Usage and Biology

A key aspect of our project is to provide a tool that can detect the DNA of any organism easily and reliably. To that end, we designed, a pool of universal toehold switches from hyperthermophile bacteria ,in silico. One of them was Toehold No.13. The reporter gene attached to the toehold switch is β-lactamase.

To assess the new toehold's performance, we performed a series of in vitro protein synthesis reactions. The in vitro transcription/ translation reactions were done using the PURExpress® In Vitro Protein Synthesis kit. To reduce the cost of the reaction, we lowered the reaction volume from 25 to 7 μL. The incubation time was 3 hours. After the 3-hour incubation in the cell-free system, the chromogenic substrate of β-lactamase, nitrocefin, was added and an additional 15-minute enzymatic assay was performed in the plate reader, at 37oC.

The performance of our designed Toehold 13,is depicted below.

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Figure 1. Performance of toehold 13 in a β-lactamase enzymatic assay. Error bars represent standard deviation of n = 2 replicates.

The results were successful because Toehold 13 was able to regulate the translation of β-lactamase in absence of trigger, while the 100nM trigger reaction reached easily the positive control signal.

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 64
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]