Difference between revisions of "Part:BBa I13453"

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PBad promoter from I0500 without AraC.
 
PBad promoter from I0500 without AraC.
  
 
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hi
 
===Usage and Biology===
 
===Usage and Biology===
  

Revision as of 09:12, 22 August 2019

Pbad promoter

PBad promoter from I0500 without AraC.

hi

Usage and Biology

Has been used as a second promoter in a system containing BBa_I0500 (PBad+AraC). In this system, it showed behavior qualitatively indistinguishable from the BBa_I0500 copy of PBad. Has not been tested independent of AraC. A second part, BBa_I13458, should allow decoupling of PBad and AraC.

See this OpenWetWare article on [http://openwetware.org/wiki/Titratable_control_of_pBAD_and_lac_promoters_in_individual_E._coli_cells#pBAD_promotersOpenWetWare pBAD and lac promoters] for additional usage and biology information


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal NheI site found at 125
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BamHI site found at 65
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]

Characterization

For the 2009 iGEM competition, British_Columbia characterized BBa_I13453 in the context of a pBAD promoter family. For the results of this characterization, see here.

For the 2010 iGEM competition, Tec-Monterrey characterized BBa_I13453 again, using a construct of GFP reporter after the pBad promoter. The transfer function was modeled with a Hill equation.

Figure 1. Transfer function of BBa_I13453. Points represent individual measurements. The line is of a Hill equation fitted to our data.

(d[GFP]/dt)/OD600 = C+A*Xn/(Xn+Kn)

Experiment Characteristic Value
Transfer Function Basal rate (C) 1 d[GFP]/dt
Gain (A) 36 d[GFP]/dt
Hill coefficient (n) 2.16
Switch Point (K) 2.8 [ara] (µM)


MetA Knockout Complementation by inducing arabinose promoter by British Columbia iGEM 2012

This part consists of an arabinose promoter, a strong RBS, and the MetA coding gene. It is able to complement a metA knockout, and the growth rate appears to be proportional to the amount of arabinose that is added.

800px-MetA_complementation_no_fluor.png


To generate this graph we cultured an E. coli MetA knockout transformed with this part in M9 minimal media with the indicated concentrations of arabinose, and measured the OD600 every 15 minutes.

TrpA Knockout Complementation by inducing arabinose promoter by British Columbia iGEM 2012

This part consists of an arabinose promoter, a strong RBS, and the TrpA coding gene. It is able to complement a metA knockout, and the growth rate appears to be proportional to the amount of arabinose that is added.

800px-TrpA_Complementation_Test_No_fluor.png

To generate this graph we cultured an E. coli TrpA knockout transformed with this part in M9 minimal media with the indicated concentrations of arabinose, and measured the OD600 every 15 minutes. See BBa_K804009 for negative controls for this part as well as linked fluorescent data. Not understood