Difference between revisions of "Part:BBa K325219:Design"

 
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<div style="font-family: Arial; padding: 00px; width: 680px; border: 0px solid #000000;">
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{{Template:K325219 page header}}
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{{Template:K325219 Characterization Navbar}}
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<div style="padding: 00px; width: 680px; border: 0px solid #000000;">
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'''Description'''<br>
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A transcription factor, LuxR (''<partinfo>C0062</partinfo>'') that is active in the presence of cell-cell signaling molecule [[3OC6HSL|3OC<sub>6</sub>HSL]] is controlled by a TetR (''<partinfo>BBa_C0040</partinfo>'') regulated operator (''<partinfo>BBa_R0040</partinfo>'').  ''Device input'' is [[3OC6HSL|3OC<sub>6</sub>HSL]].  ''Device output'' is [[PoPS]] from a LuxR-regulated operator.  If used in a cell containing TetR then a second input signal such as [http://openwetware.org/wiki/ATc aTc] can be used to produce a logical AND function.  Get the pdf datasheet  [[:Image:EndyFig1-F2620DataSheet.pdf|here]].
  
__NOTOC__
 
<partinfo>BBa_K325219 short</partinfo>
 
  
<partinfo>BBa_K325219 SequenceAndFeatures</partinfo>
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'''Performance'''<br>
 
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<center>
 
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{|{{Table}}
===Design Notes===
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!Experiment<sup>1</sup>
Biobrick assembly
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!Characteristic<sup>1</sup>
 
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!Value<sup>1</sup>
 
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|-
 
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|rowspan="3"|[[Part:BBa_F2620:Transfer Function|'''Transfer Function''']]
===Source===
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|''Maximum Output''
 
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|6.6 [[PoPS]] cell<sup>-1</sup>
Biobrick assembly from its two subparts
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|-
 
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|''Hill coefficient''
===References===
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|1.6
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|-
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|[[Switch Point|''Switch Point'']]
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|1.5E-9 M [[3OC6HSL|3OC<sub>6</sub>HSL]], exogenous
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|-
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|[[Part:BBa_F2620:Response time|'''Response time:''']]
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|<1 min
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|-
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|rowspan="2"|[[Part:BBa_F2620:Specificity|'''Input compatibility''']]
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|''Strong response to''
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|[[3OC6HSL|3OC<sub>6</sub>HSL]], C<sub>6</sub>HSL , C<sub>7</sub>HSL, 3OC<sub>8</sub>HSL, C<sub>8</sub>HSL
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|-
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|''Weak response to''
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|C<sub>4</sub>HSL, C<sub>10</sub>HSL, C<sub>12</sub>HSL
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|-
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|rowspan="2"|[[Part:BBa_F2620:Stability|'''Stability''']]
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|[[Genetic Stability|''Genetic Stability'']]<br>(Low/High Input)
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|>92/>56 generations
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|-
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|[[Performance Stability|''Performance Stability'']]<br>(Low/High Input)
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|>92/>56 generations
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|-
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|rowspan="4"|Demand
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|rowspan="1"|Internal Demand<br>(Low/High Input)
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|Not measured
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|-
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|rowspan="2"|[[Transcription Demand|''Transcriptional output demand:'']]<br>(Low/High Input)<br>Nt = length of downstream transcript in nucleotides
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|(0/6xNt) nucleotides cell<sup>-1</sup> s<sup>-1</sup>
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|-
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|(0/1.5E-1xNt) RNAP cell<sup>-1</sup>
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|-
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|[[Growth Rate|''Growth Rate'']]<br>(Low/High Input)
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|54/59 min Doubling time
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|}
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</center>
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<sup>1</sup>Measured by Ania Labno and Barry Canton 2006-2007
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<div style="padding: 00px; width: 680px">
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'''Compatibility'''<br>
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[https://parts.igem.org/cgi/partsdb/pgroup.cgi?pgroup=cell ''Chassis:''] Device has been shown to work in ''<partinfo>BBa_V1000</partinfo>'',''<partinfo>BBa_V1001</partinfo>'',''<partinfo>BBa_V1002</partinfo>'', [[Chassis/Cell-Free_Systems/Commercial_E.coli_S30| E.Coli S30 Extract]] [[Chassis/Cell-Free_Systems/Commercial_E.coli_S30/F2620 | (data)]]<br>
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[[Plasmid backbones|''Plasmids:'']] Device has been shown to work on ''<partinfo>pSB3k3</partinfo>'' and ''<partinfo>pSB1A3</partinfo>''<br>
 +
[[Part Types|''Devices:'']] Device has been shown to work with ''<partinfo>BBa_E0430</partinfo>'', ''<partinfo>BBa_E0434</partinfo>'', ''<partinfo>BBa_E0240</partinfo>''<br>
 +
Crosstalk with systems containing ''<partinfo>BBa_C0040</partinfo>''.<br>
 +
[[Help:Signalling|''Cell-Cell Signaling Systems:'']] Crosstalk with devices using [[3OC6HSL|3OC<sub>6</sub>HSL]], C6HSL, C7HSL, C8HSL, C10HSL.
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</div>
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</div>

Revision as of 09:52, 24 September 2010

Input: L-Arabinose
Output: Light

pBad/araC
I0500
Luciferase/LRE
K325210
Cambridge-Eglowli.png

Part Main Page        Arabinose -> Light        Add Data       


Description
A transcription factor, LuxR (BBa_C0062) that is active in the presence of cell-cell signaling molecule 3OC6HSL is controlled by a TetR (BBa_C0040) regulated operator (BBa_R0040). Device input is 3OC6HSL. Device output is PoPS from a LuxR-regulated operator. If used in a cell containing TetR then a second input signal such as [http://openwetware.org/wiki/ATc aTc] can be used to produce a logical AND function. Get the pdf datasheet here.


Performance

Experiment1 Characteristic1 Value1
Transfer Function Maximum Output 6.6 PoPS cell-1
Hill coefficient 1.6
Switch Point 1.5E-9 M 3OC6HSL, exogenous
Response time: <1 min
Input compatibility Strong response to 3OC6HSL, C6HSL , C7HSL, 3OC8HSL, C8HSL
Weak response to C4HSL, C10HSL, C12HSL
Stability Genetic Stability
(Low/High Input)
>92/>56 generations
Performance Stability
(Low/High Input)
>92/>56 generations
Demand Internal Demand
(Low/High Input)
Not measured
Transcriptional output demand:
(Low/High Input)
Nt = length of downstream transcript in nucleotides
(0/6xNt) nucleotides cell-1 s-1
(0/1.5E-1xNt) RNAP cell-1
Growth Rate
(Low/High Input)
54/59 min Doubling time

1Measured by Ania Labno and Barry Canton 2006-2007

Compatibility
Chassis: Device has been shown to work in BBa_V1000,BBa_V1001,BBa_V1002, E.Coli S30 Extract (data)
Plasmids: Device has been shown to work on pSB3K3 and pSB1A3
Devices: Device has been shown to work with BBa_E0430, BBa_E0434, BBa_E0240
Crosstalk with systems containing BBa_C0040.
Cell-Cell Signaling Systems: Crosstalk with devices using 3OC6HSL, C6HSL, C7HSL, C8HSL, C10HSL.