Difference between revisions of "Part:BBa K1412801"

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'''BBa_K1412801: pLac-RBS(0.01)-<i>CheZ</i>-TT'''
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'''BBa_K1412801: pLac-RBS(0.01)-<i>cheZ</i>-TT'''
  
This part consists of <i>[http://en.wikipedia.org/wiki/Chemotaxis CheZ]</i> gene which can express CheZ protein deciding <i>E. coli</i> whether tumble or swim straight.In this light, we can characterize the RBS or promoter efficiency by replacing different promoters or ribosome binding sites(RBS).Then we can characterize the efficiency of RBS and promoter via measuring the migration distance positively associated with the expression strength of CheZ.
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This part consists of <i>[http://en.wikipedia.org/wiki/Chemotaxis cheZ]</i> gene which can express CheZ protein deciding <i>E. coli</i> whether tumble or swim straight.In this light, we can characterize the RBS or promoter efficiency by replacing different promoters or ribosome binding sites(RBS).Then we can characterize the efficiency of RBS and promoter via measuring the migration distance positively associated with the expression strength of CheZ.
  
  
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When we want to characterize the efficiency of RBS, we usually connect the RBS with GFP, then measuring the fluorescence intensity of GFP. In our part, you need just connect [https://parts.igem.org/wiki/index.php/Part:BBa_B0032 RBS] after a [https://parts.igem.org/wiki/index.php/Part:BBa_R0010 pLac] promoter and before a <i>[https://parts.igem.org/Part:BBa_K629003 CheZ]</i> gene, ending with double terminator(pLac-RBS(changeable)-<i>CheZ</i>-TT). Then transferRED this gene circuit into <i>E. coli</i> (<i>CheZ</i> knocked out), and coatED plates, culutureD on semi-solid medium to measure the migration diameter of <i>E. coli</i>.
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When we want to characterize the efficiency of RBS, we usually connect the RBS with GFP, then measuring the fluorescence intensity of GFP. In our part, you need just connect [https://parts.igem.org/wiki/index.php/Part:BBa_B0032 RBS] after a [https://parts.igem.org/wiki/index.php/Part:BBa_R0010 pLac] promoter and before a <i>[https://parts.igem.org/Part:BBa_K629003 cheZ]</i> gene, ending with double terminator(pLac-RBS(changeable)-<i>cheZ</i>-TT). Then transferRED this gene circuit into <i>E. coli</i> (<i>cheZ</i> knocked out), and coatED plates, culutureD on semi-solid medium to measure the migration diameter of <i>E. coli</i>.
  
 
==='''Relevant parts'''===
 
==='''Relevant parts'''===
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<bbpart>BBa_K1412000</bbpart>: pLac-RBS(1.0)-<i>CheZ</i>-TT CheZ generator under pLac promoter
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<bbpart>BBa_K1412000</bbpart>: pLac-RBS(1.0)-<i>cheZ</i>-TT CheZ generator under pLac promoter
  
<bbpart>BBa_K1412005</bbpart>: RBS(1.0)-<i>CheZ</i>-TT
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<bbpart>BBa_K1412005</bbpart>: RBS(1.0)-<i>cheZ</i>-TT
  
<bbpart>BBa_K1412006</bbpart>: RBS(0.01)-<i>CheZ</i>-TT
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<bbpart>BBa_K1412006</bbpart>: RBS(0.01)-<i>cheZ</i>-TT
  
<bbpart>BBa_K1412007</bbpart>: RBS(0.3)-<i>CheZ</i>-TT
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<bbpart>BBa_K1412007</bbpart>: RBS(0.3)-<i>cheZ</i>-TT
  
<bbpart>BBa_K1412014</bbpart>: pTet-RBS(1.0)-CheZ-TT Characterize the efficiency of promoters with chemotaxis
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<bbpart>BBa_K1412014</bbpart>: pTet-RBS(1.0)-cheZ-TT Characterize the efficiency of promoters with chemotaxis
  
<bbpart>BBa_K1412614</bbpart>: pBAD-RBS(1.0)-CheZ-TT Characterize the efficiency of promoters with chemotaxis
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<bbpart>BBa_K1412614</bbpart>: pBAD-RBS(1.0)-cheZ-TT Characterize the efficiency of promoters with chemotaxis
  
<bbpart>BBa_K1412829</bbpart>: Plac-RBS(0.3)-CheZ-TT Characterize efficiency of RBS with chemotaxis
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<bbpart>BBa_K1412829</bbpart>: Plac-RBS(0.3)-cheZ-TT Characterize efficiency of RBS with chemotaxis
  
  

Revision as of 00:29, 18 October 2014

Characterize efficiency of RBS with chemotaxis


BBa_K1412801: pLac-RBS(0.01)-cheZ-TT

This part consists of [http://en.wikipedia.org/wiki/Chemotaxis cheZ] gene which can express CheZ protein deciding E. coli whether tumble or swim straight.In this light, we can characterize the RBS or promoter efficiency by replacing different promoters or ribosome binding sites(RBS).Then we can characterize the efficiency of RBS and promoter via measuring the migration distance positively associated with the expression strength of CheZ.


Figure 1. The schematic diagram of how we characterize the activity of RBS


Usage


When we want to characterize the efficiency of RBS, we usually connect the RBS with GFP, then measuring the fluorescence intensity of GFP. In our part, you need just connect RBS after a pLac promoter and before a cheZ gene, ending with double terminator(pLac-RBS(changeable)-cheZ-TT). Then transferRED this gene circuit into E. coli (cheZ knocked out), and coatED plates, culutureD on semi-solid medium to measure the migration diameter of E. coli.

Relevant parts


BBa_K1412000: pLac-RBS(1.0)-cheZ-TT CheZ generator under pLac promoter

BBa_K1412005: RBS(1.0)-cheZ-TT

BBa_K1412006: RBS(0.01)-cheZ-TT

BBa_K1412007: RBS(0.3)-cheZ-TT

BBa_K1412014: pTet-RBS(1.0)-cheZ-TT Characterize the efficiency of promoters with chemotaxis

BBa_K1412614: pBAD-RBS(1.0)-cheZ-TT Characterize the efficiency of promoters with chemotaxis

BBa_K1412829: Plac-RBS(0.3)-cheZ-TT Characterize efficiency of RBS with chemotaxis


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]


Reference


More information, click here: [http://2014.igem.org/Team:XMU-China# XMU-China]