Team:TUDelft/SDP Cloning

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='''Cloning Strategy'''=
='''Cloning Strategy'''=
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Next figures will illustrate how the self destructive plasmid will be constructed.<br>
Next figures will illustrate how the self destructive plasmid will be constructed.<br>
[[Image:GFP-LVA.jpg|center|thumb|550px]]<br>
[[Image:GFP-LVA.jpg|center|thumb|550px]]<br>
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'''Figure 6: Assembly of GFP-LVA and ribosomal binding site.'''<br>
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'''Figure 1: Assembly of GFP-LVA and ribosomal binding site.'''<br>
A weak ribosomal binding site and a GFP which contains a LVA tag for rapid degradation are cloned into a high copy BioBrick assembly plasmid.<br>
A weak ribosomal binding site and a GFP which contains a LVA tag for rapid degradation are cloned into a high copy BioBrick assembly plasmid.<br>
[[Image:GFP-LVA_DoubleT.jpg|center|thumb|550px]]<br>
[[Image:GFP-LVA_DoubleT.jpg|center|thumb|550px]]<br>
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'''Figure 7: Assembly of GPF-LVA-ribosomal binding site with double terminator.'''<br>
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'''Figure 2: Assembly of GPF-LVA-ribosomal binding site with double terminator.'''<br>
A double terminator is added to the GFP-LVA -ribosomal binding site construct and cloned into a high copy BioBrick assembly plasmid.<br>
A double terminator is added to the GFP-LVA -ribosomal binding site construct and cloned into a high copy BioBrick assembly plasmid.<br>
[[Image:tetR_promoter.jpg|center|thumb|550px]]<br>
[[Image:tetR_promoter.jpg|center|thumb|550px]]<br>
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'''Figure 8: Assembly of tetR promoter and I-SceI restriction site.'''<br>
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'''Figure 3: Assembly of tetR promoter and I-SceI restriction site.'''<br>
Since the restriction site of I-SceI is not available as BioBrick, this restriction site should be standardized as BioBrick. Therefore we synthesis this restriction site flanked with the BioBrick prefix an suffix. This restriction site is than cloned into a high copy BioBrick assembly plasmid. After standardizing the restriction site this restriction site is combined with a TetR repressible promoter and cloned into a high copy BioBrick assembly plasmid. This tetR promoter will control transcription of the I-SceI endonuclease, in order to avoid constantly transcription of the I-SceI.<br>
Since the restriction site of I-SceI is not available as BioBrick, this restriction site should be standardized as BioBrick. Therefore we synthesis this restriction site flanked with the BioBrick prefix an suffix. This restriction site is than cloned into a high copy BioBrick assembly plasmid. After standardizing the restriction site this restriction site is combined with a TetR repressible promoter and cloned into a high copy BioBrick assembly plasmid. This tetR promoter will control transcription of the I-SceI endonuclease, in order to avoid constantly transcription of the I-SceI.<br>
[[Image:I-SceI_TetR.jpg|center|thumb|550px]]<br>
[[Image:I-SceI_TetR.jpg|center|thumb|550px]]<br>
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'''Figure 9: Assembly of I-SceI and TetR'''<br>
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'''Figure 4: Assembly of I-SceI and TetR'''<br>
The tetR promoter which controls the GFP-LVA transcription is repressed by TetR. Therefore the SDP should contain a tetR gene as well in order to control GFP-LVA transcription.
The tetR promoter which controls the GFP-LVA transcription is repressed by TetR. Therefore the SDP should contain a tetR gene as well in order to control GFP-LVA transcription.
The I-SceI restriction site and TetR generator are cloned into a high copy BioBrick assembly plasmid.<br>
The I-SceI restriction site and TetR generator are cloned into a high copy BioBrick assembly plasmid.<br>
[[Image:endonuclease_tetRProm_ISceI.jpg|center|thumb|550px]]<br>
[[Image:endonuclease_tetRProm_ISceI.jpg|center|thumb|550px]]<br>
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'''Figure 10: Assembly of endonuclease, tetR promoter and I-SceI restriction site'''<br>
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'''Figure 5: Assembly of endonuclease, tetR promoter and I-SceI restriction site'''<br>
At this point all the basic parts of the construct are built. In order to construct the SDP these parts should be reassembled. The I-SceI generator(I-Sce-I gene under control of a Lac promoter) is assembled with tetR promoter and I-SceI restriction site and cloned into a high copy BioBrick assembly plasmid.<br>
At this point all the basic parts of the construct are built. In order to construct the SDP these parts should be reassembled. The I-SceI generator(I-Sce-I gene under control of a Lac promoter) is assembled with tetR promoter and I-SceI restriction site and cloned into a high copy BioBrick assembly plasmid.<br>
[[Image:GFP-LVA_TetR.jpg|center|thumb|550px]]<br>
[[Image:GFP-LVA_TetR.jpg|center|thumb|550px]]<br>
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'''Figure 11: Assembly of GFP-LVA construct and TetR construct.'''<br>
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'''Figure 6: Assembly of GFP-LVA construct and TetR construct.'''<br>
The constructs showed in figures 7 and figure 9 are assembled and cloned into a high copy BioBrick assembly plasmid.<br>
The constructs showed in figures 7 and figure 9 are assembled and cloned into a high copy BioBrick assembly plasmid.<br>
[[Image:Final_Assembly.jpg|center|thumb|550px]]<br>
[[Image:Final_Assembly.jpg|center|thumb|550px]]<br>
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'''Figure 12: Final assembly of the SDP.'''<br>
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'''Figure 7: Final assembly of the SDP.'''<br>
At this point all the constructed biobricks are assembled together in order to construct the final construct, the Self Destructive Plasmid.
At this point all the constructed biobricks are assembled together in order to construct the final construct, the Self Destructive Plasmid.
{{Template:TUDelftiGEM2009_end}}
{{Template:TUDelftiGEM2009_end}}

Latest revision as of 20:12, 12 October 2009

Cloning Strategy

Constructing the Self Destructive plasmid


Next figures will illustrate how the self destructive plasmid will be constructed.

GFP-LVA.jpg

Figure 1: Assembly of GFP-LVA and ribosomal binding site.
A weak ribosomal binding site and a GFP which contains a LVA tag for rapid degradation are cloned into a high copy BioBrick assembly plasmid.

GFP-LVA DoubleT.jpg

Figure 2: Assembly of GPF-LVA-ribosomal binding site with double terminator.
A double terminator is added to the GFP-LVA -ribosomal binding site construct and cloned into a high copy BioBrick assembly plasmid.

TetR promoter.jpg

Figure 3: Assembly of tetR promoter and I-SceI restriction site.
Since the restriction site of I-SceI is not available as BioBrick, this restriction site should be standardized as BioBrick. Therefore we synthesis this restriction site flanked with the BioBrick prefix an suffix. This restriction site is than cloned into a high copy BioBrick assembly plasmid. After standardizing the restriction site this restriction site is combined with a TetR repressible promoter and cloned into a high copy BioBrick assembly plasmid. This tetR promoter will control transcription of the I-SceI endonuclease, in order to avoid constantly transcription of the I-SceI.

I-SceI TetR.jpg

Figure 4: Assembly of I-SceI and TetR
The tetR promoter which controls the GFP-LVA transcription is repressed by TetR. Therefore the SDP should contain a tetR gene as well in order to control GFP-LVA transcription. The I-SceI restriction site and TetR generator are cloned into a high copy BioBrick assembly plasmid.

Endonuclease tetRProm ISceI.jpg

Figure 5: Assembly of endonuclease, tetR promoter and I-SceI restriction site
At this point all the basic parts of the construct are built. In order to construct the SDP these parts should be reassembled. The I-SceI generator(I-Sce-I gene under control of a Lac promoter) is assembled with tetR promoter and I-SceI restriction site and cloned into a high copy BioBrick assembly plasmid.

GFP-LVA TetR.jpg

Figure 6: Assembly of GFP-LVA construct and TetR construct.
The constructs showed in figures 7 and figure 9 are assembled and cloned into a high copy BioBrick assembly plasmid.

Final Assembly.jpg

Figure 7: Final assembly of the SDP.
At this point all the constructed biobricks are assembled together in order to construct the final construct, the Self Destructive Plasmid.