Difference between revisions of "Part:BBa I746105"

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Summary:In this contribution, we characterized this part in <i>S.aureus</i>.
 
Summary:In this contribution, we characterized this part in <i>S.aureus</i>.
  
 
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===Plasmid construction===
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To characterize whether this P2-GFP part can be function in the Gram-positive strain, we test this composite part directly in S. aureus. The P2-GFP composite fragment was cut by restriction endonuclease from the BBa_I746105 part, then the fragment was inserted at the same restriction site of the shuttle vector pLI50 (Fig. 1A) by ligation, the result plasmid named pLI50-P2-GFP (Fig. 1B). The constructed pLI50-P2-GFP was then verified by restriction endonuclease digestion and sequencing.
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[[file:Xyz2.jpeg.jpeg|500px|thumb|left]]
  
  
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===plasmid construction===
 
To characterize whether this P2-GFP part can be function in the Gram-positive strain, we test this composite part directly in S. aureus. The P2-GFP composite fragment was cut by restriction endonuclease from the BBa_I746105 part, then the fragment was inserted at the same restriction site of the shuttle vector pLI50 (Fig. 1A) by ligation, the result plasmid named pLI50-P2-GFP (Fig. 1B). The constructed pLI50-P2-GFP was then verified by restriction endonuclease digestion and sequencing.
 
 
[[file:Xyz2.jpeg|300px|thumb|left]]
 
  
  

Revision as of 09:08, 31 October 2017


GFP with agr P2 promoter

This is composed of a promoter and a GFP reporter gene. This can produce green fluorescence and in theory the strength of the green flourence is much stronger when there is phosphorylated AgrA in the cell. This is used to test the basal activity of agr P2 promoter.

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
    INCOMPATIBLE WITH RFC[1000]
    Illegal BsaI.rc site found at 769


Contribution:TMMU-China 2017

Author:Yizhen Xu

Summary:In this contribution, we characterized this part in S.aureus.

Plasmid construction

To characterize whether this P2-GFP part can be function in the Gram-positive strain, we test this composite part directly in S. aureus. The P2-GFP composite fragment was cut by restriction endonuclease from the BBa_I746105 part, then the fragment was inserted at the same restriction site of the shuttle vector pLI50 (Fig. 1A) by ligation, the result plasmid named pLI50-P2-GFP (Fig. 1B). The constructed pLI50-P2-GFP was then verified by restriction endonuclease digestion and sequencing.


Characterization of P2-GFP composite part in S.aureus

To characterize whether this P2-GFP part can function also in the Gram-positive strain, we test this composite part directly in S.aureus. The P2-GFP composite part was cut from the pSB1C3-P2-GFP plasmid, then it was ligated into the shuttle vector pLI50. After that the pLI50-P2-GFP was transformed into the S.aureus strain RN4220. We found that the colony of RN4220::pLI50-P2-GFP strain show strong green fluorescence compared to the colony of RN4220::pLI50 strain. This data suggested that the P2-GFP composite part can be functional when the Agr system is present.

RN4220.jpeg