Difference between revisions of "Part:BBa K4491004"
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<partinfo>BBa_K4491004 short</partinfo>
 
<partinfo>BBa_K4491004 short</partinfo>
* ultra strong double terminator characterised in the paper Precision design of stable genetic circuits carried in highly-insulated E. coli genomic landing pads (Park et al, 2018).  
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* ultra strong double terminator characterised in the paper Precision design of stable genetic circuits carried in highly-insulated E. coli genomic landing pads (Park et al, 2018). :)
  
 
* Double terminator allows transcription termination in both directions. This is important as during the codon optimisation process and when building genetic circuits, there is a chance that a reverse promoter can be produced somewhere along the genetic circuits.  
 
* Double terminator allows transcription termination in both directions. This is important as during the codon optimisation process and when building genetic circuits, there is a chance that a reverse promoter can be produced somewhere along the genetic circuits.  

Revision as of 11:10, 10 October 2022


Terminator.png

DT54

  • ultra strong double terminator characterised in the paper Precision design of stable genetic circuits carried in highly-insulated E. coli genomic landing pads (Park et al, 2018). :)
  • Double terminator allows transcription termination in both directions. This is important as during the codon optimisation process and when building genetic circuits, there is a chance that a reverse promoter can be produced somewhere along the genetic circuits.

Results characterised by Park et al., 2018

  • Terminator strength (forward): 1800
  • Terminator strength (reverse): 30

Secondary Structure

File:Mfold-K4491004-1.png

Measurement

  • [http://openwetware.org/wiki/Cconboy:Terminator_Characterization/Results How these parts were measured]