Team:Freiburg Bioware/Project/Results/Modularization Vector Plasmid
From 2010.igem.org
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<div style='border:none;border-bottom:solid windowtext 1.0pt;padding:0cm 0cm 1.0pt 0cm'> | <div style='border:none;border-bottom:solid windowtext 1.0pt;padding:0cm 0cm 1.0pt 0cm'> | ||
- | <p class=MsoTocHeading>Contents | + | <p class=MsoTocHeading>Contents</p> |
</div> | </div> | ||
- | <p class=MsoToc2><span class=MsoHyperlink><a href="# | + | <p class=MsoToc2><span class=MsoHyperlink><a href="#_Toc275800680"><span |
- | + | lang=EN-US>Introduction to Modularization of Vectorplasmid</span><span | |
- | + | style='color:windowtext;display:none;text-decoration:none'>. </span><span | |
- | + | ||
- | + | ||
- | + | ||
- | lang=EN-US>Introduction to Modularization</span><span style='color:windowtext; | + | |
- | display:none;text-decoration:none'>. </span><span | + | |
style='color:windowtext;display:none;text-decoration:none'>1</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>1</span></a></span></p> | ||
- | <p class=MsoToc3><span class=MsoHyperlink><a href="# | + | <p class=MsoToc3><span class=MsoHyperlink><a href="#_Toc275800681"><span |
- | lang=EN-US>Recombinant and Modular | + | lang=EN-US>Recombinant and Modular Vectorplasmid Carrying GOI</span><span |
style='color:windowtext;display:none;text-decoration:none'> </span><span | style='color:windowtext;display:none;text-decoration:none'> </span><span | ||
style='color:windowtext;display:none;text-decoration:none'>2</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>2</span></a></span></p> | ||
- | <p class=MsoToc3><span class=MsoHyperlink><a href="# | + | <p class=MsoToc3><span class=MsoHyperlink><a href="#_Toc275800682"><span |
lang=EN-US>Cloning and Combination Strategies for the Vectorplasmid</span><span | lang=EN-US>Cloning and Combination Strategies for the Vectorplasmid</span><span | ||
style='color:windowtext;display:none;text-decoration:none'>. </span><span | style='color:windowtext;display:none;text-decoration:none'>. </span><span | ||
style='color:windowtext;display:none;text-decoration:none'>3</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>3</span></a></span></p> | ||
- | <p class=MsoToc3><span class=MsoHyperlink><a href="# | + | <p class=MsoToc3><span class=MsoHyperlink><a href="#_Toc275800683"><span |
lang=EN-US>Testing functionality of Assembled Vectorplasmid</span><span | lang=EN-US>Testing functionality of Assembled Vectorplasmid</span><span | ||
style='color:windowtext;display:none;text-decoration:none'>. </span><span | style='color:windowtext;display:none;text-decoration:none'>. </span><span | ||
style='color:windowtext;display:none;text-decoration:none'>7</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>7</span></a></span></p> | ||
- | <p class=MsoToc4><span class=MsoHyperlink><a href="# | + | <p class=MsoToc4><span class=MsoHyperlink><a href="#_Toc275800684"><span |
lang=EN-US>Fluorescence Microscopy of Target Cells Demonstrates GOI Expression</span><span | lang=EN-US>Fluorescence Microscopy of Target Cells Demonstrates GOI Expression</span><span | ||
style='color:windowtext;display:none;text-decoration:none'>. </span><span | style='color:windowtext;display:none;text-decoration:none'>. </span><span | ||
style='color:windowtext;display:none;text-decoration:none'>7</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>7</span></a></span></p> | ||
- | <p class=MsoToc4><span class=MsoHyperlink><a href="# | + | <p class=MsoToc4><span class=MsoHyperlink><a href="#_Toc275800685"><span |
- | lang=EN-US>Analysis of Target Cells by Flow Cytometry demonstrates GOI | + | lang=EN-US>Analysis of Target Cells by Flow Cytometry demonstrates GOI Expression</span><span |
- | Expression</span><span style='color:windowtext;display:none;text-decoration: | + | style='color:windowtext;display:none;text-decoration:none'>. </span><span |
- | none'>. </span><span | + | |
style='color:windowtext;display:none;text-decoration:none'>8</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>8</span></a></span></p> | ||
- | <p class=MsoToc5><span class=MsoHyperlink><a href="# | + | <p class=MsoToc5><span class=MsoHyperlink><a href="#_Toc275800686"><span |
- | hGH terminator BioBrick on GOI Expression<span style='color:windowtext; | + | lang=EN-US>Influence of hGH terminator BioBrick on GOI Expression</span><span |
- | display:none;text-decoration:none'>. </span><span | + | style='color:windowtext;display:none;text-decoration:none'>. </span><span |
style='color:windowtext;display:none;text-decoration:none'>8</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>8</span></a></span></p> | ||
- | <p class=MsoToc5><span class=MsoHyperlink><a href="# | + | <p class=MsoToc5><span class=MsoHyperlink><a href="#_Toc275800687"><span |
- | <i>Beta-globin</i> intron Biobrick on GOI Expression<span style='color:windowtext; | + | lang=EN-US>Influence of <i>Beta-globin</i> intron Biobrick on GOI Expression</span><span |
- | display:none;text-decoration:none'>. </span><span | + | style='color:windowtext;display:none;text-decoration:none'>. </span><span |
style='color:windowtext;display:none;text-decoration:none'>11</span></a></span></p> | style='color:windowtext;display:none;text-decoration:none'>11</span></a></span></p> | ||
- | <p class=MsoToc5><span class=MsoHyperlink><a href="# | + | <p class=MsoToc5><span class=MsoHyperlink><a href="#_Toc275800688"><span |
- | of the Full Assembled Vectorplasmid Demonstrated by GOI Expression<span | + | lang=EN-US>Functionality of the Full Assembled Vectorplasmid Demonstrated by |
- | style='color:windowtext;display:none;text-decoration:none'>. </span><span | + | GOI Expression</span><span style='color:windowtext;display:none;text-decoration: |
- | style='color:windowtext;display:none;text-decoration:none'> | + | none'>. </span><span |
+ | style='color:windowtext;display:none;text-decoration:none'>14</span></a></span></p> | ||
- | <p class= | + | <p class=MsoToc3><span class=MsoHyperlink><a href="#_Toc275800689"><span |
+ | lang=EN-US>Conclusion</span><span style='color:windowtext;display:none; | ||
+ | text-decoration:none'>. </span><span | ||
+ | style='color:windowtext;display:none;text-decoration:none'>16</span></a></span></p> | ||
- | < | + | <p class=MsoToc3><span class=MsoHyperlink><a href="#_Toc275800690"><span |
+ | lang=EN-US>References</span><span style='color:windowtext;display:none; | ||
+ | text-decoration:none'>. </span><span | ||
+ | style='color:windowtext;display:none;text-decoration:none'>17</span></a></span></p> | ||
- | < | + | <p class=MsoNormal><a name="_Toc275797953"><b> </b></a></p> |
- | <h2><a name=" | + | <h2 style='margin-left:0cm;text-indent:0cm'><a name="_Toc275800680"><span |
- | + | style='font:7.0pt "Times New Roman"'> | |
- | + | </span><span lang=EN-US>Introduction to Modularization</span></a><span | |
- | + | lang=EN-US> of Vectorplasmid</span></h2> | |
- | + | ||
- | + | ||
- | + | ||
<p class=MsoNormal><span lang=EN-US>Producing recombinant virus particles for | <p class=MsoNormal><span lang=EN-US>Producing recombinant virus particles for | ||
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by regulating gene expression of Rep and Cap proteins.</span></p> | by regulating gene expression of Rep and Cap proteins.</span></p> | ||
- | <h3><a name=" | + | <h3 style='margin-left:0cm;text-indent:0cm'><a name="_Toc275800681"></a><a |
- | Carrying GOI</span></a></h3> | + | name="_Toc275797954"><span lang=EN-US><span style='font:7.0pt "Times New Roman"'> |
+ | </span></span><span lang=EN-US>Recombinant and Modular Vectorplasmid Carrying | ||
+ | GOI</span></a></h3> | ||
<p class=MsoNormal><span lang=EN-US>The iGEM team Freiburg_Bioware 2010 provides | <p class=MsoNormal><span lang=EN-US>The iGEM team Freiburg_Bioware 2010 provides | ||
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mVenus: BBa_I757008 and mCherry: BBa_J06504, suicide genes mGMK_TK30: BBa_K404112, | mVenus: BBa_I757008 and mCherry: BBa_J06504, suicide genes mGMK_TK30: BBa_K404112, | ||
mGMK_SR39: BBa_K404315 and CD: BBa_K404112) and the hGH terminator (BBa_K404108).</span></p> | mGMK_SR39: BBa_K404315 and CD: BBa_K404112) and the hGH terminator (BBa_K404108).</span></p> | ||
+ | |||
+ | <div align=center> | ||
<table class=MsoTableGrid border=1 cellspacing=0 cellpadding=0 | <table class=MsoTableGrid border=1 cellspacing=0 cellpadding=0 | ||
style='border-collapse:collapse;border:none'> | style='border-collapse:collapse;border:none'> | ||
- | <tr | + | <tr style='height:522.25pt'> |
- | + | <td width=589 valign=top style='width:441.75pt;border:solid windowtext 1.0pt; | |
- | + | padding:0cm 5.4pt 0cm 5.4pt;height:522.25pt'> | |
- | + | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | |
- | + | 0cm;line-height:normal;page-break-after:avoid'><img width=580 height=692 | |
- | + | id="Grafik 5" src="Freiburg10_Modularization_GOI-Dateien/image001.jpg"></p> | |
- | + | <p class=MsoCaption style='text-indent:0cm'><span lang=EN-US>Figure </span><span lang=EN-US>1</span><span lang=EN-US>: </span><span lang=EN-US style='font-weight: | |
- | + | normal'>Overview of the theoretical sequence of each BioBrick provided within | |
- | + | the Virus Construction Kit for an intact and fully functional rAAV genome. | |
- | + | The plasmid in the lowest panel was used for tumor killing in combination with | |
- | + | plasmids coding for modified capsid proteins. More detailed infomartion about | |
- | + | these constructs can be found under ‘Arming: Killing the tumor’ and | |
- | + | ‘N-terminal fusion for Targeting’.</span></p> | |
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</td> | </td> | ||
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</table> | </table> | ||
- | <h3><a name=" | + | </div> |
- | for the Vectorplasmid</span></a><span lang=EN-US> </span></h3> | + | |
+ | <p class=MsoNormal style='text-indent:0cm'><span lang=EN-US> </span></p> | ||
+ | |||
+ | <h3><a name="_Toc275800682"></a><a name="_Toc275797955"><span lang=EN-US>Cloning | ||
+ | and Combination Strategies for the Vectorplasmid</span></a><span lang=EN-US> </span></h3> | ||
<p class=MsoNormal><span lang=EN-US>Organization of the recombinant viral DNA was | <p class=MsoNormal><span lang=EN-US>Organization of the recombinant viral DNA was | ||
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regions forming T-shaped hairpins during replication, PCR amplification was not | regions forming T-shaped hairpins during replication, PCR amplification was not | ||
possible. Hence a cloning strategy was developed by the iGEM team Freiburg in | possible. Hence a cloning strategy was developed by the iGEM team Freiburg in | ||
- | order to provide BioBrick-compatible ITRs (see ).</span></p> | + | order to provide BioBrick-compatible ITRs (see ‘Method Development of Cloning |
+ | Strategy for ITRs’).</span></p> | ||
<p class=MsoNormal><span lang=EN-US>In </span><span | <p class=MsoNormal><span lang=EN-US>In </span><span | ||
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<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal;page-break-after:avoid'><img width=439 height=272 | 0cm;line-height:normal;page-break-after:avoid'><img width=439 height=272 | ||
- | id="Grafik 2" src="Freiburg10_Modularization_GOI | + | id="Grafik 2" src="Freiburg10_Modularization_GOI-Dateien/image002.gif" |
alt="Beschreibung: http://partsregistry.org/wiki/images/1/1c/Freiburg10_Vectorplasmid_cloning.png"></p> | alt="Beschreibung: http://partsregistry.org/wiki/images/1/1c/Freiburg10_Vectorplasmid_cloning.png"></p> | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275783119"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275783119"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>3</span><span lang=EN-US>: </span><span |
lang=EN-US style='font-weight:normal'>Assembly procedure for fusion of | lang=EN-US style='font-weight:normal'>Assembly procedure for fusion of | ||
BioBricks and composite parts to a fully assembled and functional plasmid | BioBricks and composite parts to a fully assembled and functional plasmid | ||
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<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal;page-break-after:avoid'><img width=452 height=530 | 0cm;line-height:normal;page-break-after:avoid'><img width=452 height=530 | ||
- | id="Grafik 74" | + | id="Grafik 74" src="Freiburg10_Modularization_GOI-Dateien/image003.gif"></p> |
- | + | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275783160"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275783160"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>4</span><span lang=EN-US>:</span><span |
lang=EN-US> </span><span lang=EN-US style='font-weight:normal'>Theoretical | lang=EN-US> </span><span lang=EN-US style='font-weight:normal'>Theoretical | ||
cloning of the composite part leftITR_CMV to the <i>beta-globin</i> intron | cloning of the composite part leftITR_CMV to the <i>beta-globin</i> intron | ||
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and PstI (beta-globin intron: </span><span lang=EN-US style='font-size:9.0pt; | and PstI (beta-globin intron: </span><span lang=EN-US style='font-size:9.0pt; | ||
line-height:200%;color:black'>BBa_K404107</span><span lang=EN-US>) or SpeI and | line-height:200%;color:black'>BBa_K404107</span><span lang=EN-US>) or SpeI and | ||
- | PstI (leftITR_CMV) and loaded on an agarose gel. As demonstrated in the | + | PstI (leftITR_CMV) and loaded on an agarose gel. As demonstrated in the preparative |
- | preparative gel in </span><span lang=EN-US>Figure 4</span><span lang=EN-US>, | + | gel in </span><span lang=EN-US>Figure 4</span><span lang=EN-US>, the expected |
- | the expected bands could be detected under UV light and the extracted DNA could | + | bands could be detected under UV light and the extracted DNA could be |
- | be successfully ligated. Each assembly step for producing BioBrick | + | successfully ligated. Each assembly step for producing BioBrick intermediates |
- | intermediates was conducted following the same strategy.</span></p> | + | was conducted following the same strategy.</span></p> |
<div align=center> | <div align=center> | ||
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text-align:right;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | text-align:right;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | ||
width=397 height=194 id="Grafik 77" | width=397 height=194 id="Grafik 77" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image004.gif" |
alt="Beschreibung: \\132.230.232.133\x\users\FreiGem\iGEM2010\Labor\Manual- Virus Construction Kit\Modularization - GOI\09.09_Cloning_leftITR_beta to pCMV and phTERT.png"></p> | alt="Beschreibung: \\132.230.232.133\x\users\FreiGem\iGEM2010\Labor\Manual- Virus Construction Kit\Modularization - GOI\09.09_Cloning_leftITR_beta to pCMV and phTERT.png"></p> | ||
- | <p class=MsoCaption | + | <p class=MsoCaption style='text-indent:0cm'><span lang=EN-US>Figure </span><span lang=EN-US>5</span><span lang=EN-US>: Assembly intermediate in fusion of the |
- | + | vectorplasmids containing different promoters. </span><span lang=EN-US | |
- | + | style='font-weight:normal'>Fusion of the BioBrick part <i>beta-globin</i> (</span><span | |
- | + | lang=EN-US style='color:black'>BBa_K404107</span><span lang=EN-US | |
- | + | style='font-weight:normal'>) intron to the composite parts leftITR_pCMV and | |
- | + | leftITR_phTERT, respectively, was performed following the BioBrick assembly | |
- | + | strategy by digesting the insert with PstI and XbaI and the vectors with SpeI | |
- | + | and PstI. The left lane shows the expected fragment at around 560 bp which | |
- | + | corresponds to the <i>beta-globin</i> intron fragment, in contrast to the two | |
- | + | lanes in the center and on the right which correspond to linearized plasmids | |
- | + | after digesting with above mentioned iGEM restriction sites. M, GeneRuler DNA | |
- | + | ladder mix; Insert, pSB1C3_<i>beta-globin</i> intron; Vector pCMV, | |
- | + | pSB1C3_leftITR_pCMV; Vector phTERT, pSB1C3_leftITR_phTERT.</span></p> | |
- | + | ||
</td> | </td> | ||
</tr> | </tr> | ||
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text-align:right;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | text-align:right;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | ||
width=397 height=184 id="Grafik 80" | width=397 height=184 id="Grafik 80" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image005.gif" |
alt="Beschreibung: \\132.230.232.133\x\users\FreiGem\iGEM2010\Labor\Manual- Virus Construction Kit\Modularization - GOI\18.09_Cloning_Full_phTERT_mVenus.png"></p> | alt="Beschreibung: \\132.230.232.133\x\users\FreiGem\iGEM2010\Labor\Manual- Virus Construction Kit\Modularization - GOI\18.09_Cloning_Full_phTERT_mVenus.png"></p> | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784510"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784510"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>6</span><span lang=EN-US |
style='font-weight:normal'>: </span><span lang=EN-US>Modularization of the | style='font-weight:normal'>: </span><span lang=EN-US>Modularization of the | ||
assembled vectorplasmid containing the phTERT promoter and mVenus as gene of | assembled vectorplasmid containing the phTERT promoter and mVenus as gene of | ||
Line 676: | Line 338: | ||
using fluorescent microscopy and flow cytometry analysis.</span></p> | using fluorescent microscopy and flow cytometry analysis.</span></p> | ||
- | <h3><a name=" | + | <h3 style='margin-left:0cm;text-indent:0cm'><a name="_Toc275800683"></a><a |
- | Vectorplasmid</span></a></h3> | + | name="_Toc275797956"><span lang=EN-US><span style='font:7.0pt "Times New Roman"'> |
+ | </span></span><span lang=EN-US>Testing functionality of Assembled Vectorplasmid</span></a></h3> | ||
- | <h4 | + | <h4><a name="_Toc275800684"></a><a name="_Toc275797957"><span lang=EN-US>Fluorescence |
- | lang=EN-US>Fluorescence Microscopy of Target Cells Demonstrates GOI Expression</span></a></h4> | + | Microscopy of Target Cells Demonstrates GOI Expression</span></a></h4> |
<p class=MsoNormal><span lang=EN-US>Qualitative analysis of mVenus expression | <p class=MsoNormal><span lang=EN-US>Qualitative analysis of mVenus expression | ||
Line 700: | Line 363: | ||
text-align:center;text-indent:0cm;line-height:normal'><img width=264 | text-align:center;text-indent:0cm;line-height:normal'><img width=264 | ||
height=218 id="Grafik 18" | height=218 id="Grafik 18" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image006.jpg" |
alt="Beschreibung: Freiburg10_2Transd30µg_unverd_2_(c1).JPG (1388×1040)"></p> | alt="Beschreibung: Freiburg10_2Transd30µg_unverd_2_(c1).JPG (1388×1040)"></p> | ||
</td> | </td> | ||
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<p class=MsoNormal align=center style='margin-bottom:0cm;margin-bottom:.0001pt; | <p class=MsoNormal align=center style='margin-bottom:0cm;margin-bottom:.0001pt; | ||
text-align:center;text-indent:0cm;line-height:normal'><img width=242 | text-align:center;text-indent:0cm;line-height:normal'><img width=242 | ||
- | height= | + | height=220 id="Grafik 19" |
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image007.jpg" |
alt="Beschreibung: https://static.igem.org/mediawiki/2010/f/f1/Freiburg10_2Transd30%C2%B5g_unverd_%28c1%29.JPG"></p> | alt="Beschreibung: https://static.igem.org/mediawiki/2010/f/f1/Freiburg10_2Transd30%C2%B5g_unverd_%28c1%29.JPG"></p> | ||
</td> | </td> | ||
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text-align:center;text-indent:0cm;line-height:normal'><img width=258 | text-align:center;text-indent:0cm;line-height:normal'><img width=258 | ||
height=195 id="Grafik 16" | height=195 id="Grafik 16" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image008.jpg" |
alt="Beschreibung: https://static.igem.org/mediawiki/2010/4/40/2010-7-8_plate_1_A_2_solo_cell.jpg"></p> | alt="Beschreibung: https://static.igem.org/mediawiki/2010/4/40/2010-7-8_plate_1_A_2_solo_cell.jpg"></p> | ||
</td> | </td> | ||
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text-align:center;text-indent:0cm;line-height:normal'><img width=257 | text-align:center;text-indent:0cm;line-height:normal'><img width=257 | ||
height=194 id="Grafik 17" | height=194 id="Grafik 17" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image009.jpg" |
alt="Beschreibung: https://static.igem.org/mediawiki/2010/4/40/2010-7-8_plate_1_A_2_solo_cell.jpg"></p> | alt="Beschreibung: https://static.igem.org/mediawiki/2010/4/40/2010-7-8_plate_1_A_2_solo_cell.jpg"></p> | ||
</td> | </td> | ||
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border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784524"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784524"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>7</span><span lang=EN-US>: </span><span |
lang=EN-US style='font-weight:normal'>Fluorescence microscopy (Exciatation: | lang=EN-US style='font-weight:normal'>Fluorescence microscopy (Exciatation: | ||
505nm, Emission: 536nm) was performed for detection of transduced cell | 505nm, Emission: 536nm) was performed for detection of transduced cell | ||
Line 752: | Line 415: | ||
<p class=MsoNormal><span lang=EN-US> </span></p> | <p class=MsoNormal><span lang=EN-US> </span></p> | ||
- | <h4 | + | <h4><a name="_Toc275800685"></a><a name="_Toc275797958"><span lang=EN-US>Analysis |
- | lang=EN-US>Analysis of Target Cells by Flow Cytometry demonstrates GOI | + | of Target Cells by Flow Cytometry demonstrates GOI Expression</span></a></h4> |
- | Expression</span></a></h4> | + | |
<p class=MsoNormal><span lang=EN-US>Characterizing the function of the hGH | <p class=MsoNormal><span lang=EN-US>Characterizing the function of the hGH | ||
Line 760: | Line 422: | ||
approaches were conducted followed by analysis via flow cytometry. </span></p> | approaches were conducted followed by analysis via flow cytometry. </span></p> | ||
- | <h5><a name=" | + | <h5><a name="_Toc275800686"></a><a name="_Toc275797959"><span lang=EN-US>Influence |
- | BioBrick on GOI Expression</span></a></h5> | + | of hGH terminator BioBrick on GOI Expression</span></a></h5> |
<p class=MsoNormal><span lang=EN-US>The iGEM team Freiburg provides the hGH | <p class=MsoNormal><span lang=EN-US>The iGEM team Freiburg provides the hGH | ||
Line 799: | Line 461: | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal'><img width=629 height=408 id="Grafik 30" | 0cm;line-height:normal'><img width=629 height=408 id="Grafik 30" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image010.gif"></p> |
</td> | </td> | ||
</tr> | </tr> | ||
Line 806: | Line 468: | ||
border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
- | 0cm;line-height:normal'><b><span lang=EN-US>Vectorplasmid containing hGH | + | 0cm;line-height:normal'><b><span lang=EN-US>Vectorplasmid containing hGH |
- | signal</span></b></p> | + | terminator signal</span></b></p> |
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal;page-break-after:avoid'><img width=635 height=410 | 0cm;line-height:normal;page-break-after:avoid'><img width=635 height=410 | ||
- | id="Grafik 2049" | + | id="Grafik 2049" src="Freiburg10_Modularization_GOI-Dateien/image011.gif"></p> |
- | + | ||
</td> | </td> | ||
</tr> | </tr> | ||
Line 818: | Line 479: | ||
border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
- | 0cm;line-height:normal'><a name="_Ref275784539"><b><span lang=EN-US>Figure </span></b></a><b><span lang=EN-US> | + | 0cm;line-height:normal'><a name="_Ref275784539"><b><span lang=EN-US>Figure </span></b></a><b><span lang=EN-US>8</span></b><b><span lang=EN-US>:</span></b><span lang=EN-US> <b>Flow |
- | cytometry analysis of vectorplasmids with and without hGH terminator.</b | + | cytometry analysis of vectorplasmids with and without hGH terminator.</b> A: |
- | + | ||
- | + | ||
Gating non transduced cells (control); subcellular debris and clumps can be | Gating non transduced cells (control); subcellular debris and clumps can be | ||
distinguished from single cells by size, estimated forward scatter (FS Lin) | distinguished from single cells by size, estimated forward scatter (FS Lin) | ||
- | and granularity, estimated side scatter (SS Lin) | + | and granularity, estimated side scatter (SS Lin) B: Non transduced cells |
- | + | applied against mVenus (Analytical gate was set such that 1% or fewer of | |
- | + | negative control cells fell within the positive region (R5). C: Gating transduced | |
- | + | cells (R2 </span><span lang=EN-US style='font-family:"Cambria Math","serif"'>≙</span><span | |
- | lang=EN-US>R14) (used plasmids for transfection: GOI: | + | lang=EN-US>R14) (used plasmids for transfection: GOI: |
- | + | pSB1C3_lITR_CMV_beta-globin intron_mVenus_rITR (BBa_K404127), pHelper, pRC). | |
- | + | D: Transduced cells plotted against mVenus, R10 comprises transduced cells by | |
- | mVenus expression. | + | detecting mVenus expression. E: Overlay of non-transduced (red) and |
- | (green) cells applied against mVenus. | + | transduced (green) cells applied against mVenus.F: Gating non-transduced |
- | (control) | + | cells (control) G: Non-transduced cells applied against mVenus. H: Gating |
- | + | transduced cells (R2 </span><span lang=EN-US style='font-family:"Cambria Math","serif"'>≙</span><span | |
- | lang=EN-US>R14) (used plasmids for transfection: GOI: reassembled | + | lang=EN-US>R14) (used plasmids for transfection: GOI: reassembled pSB1C3_lITR_CMV_beta-globin_mVenus_hGH_rITR |
- | (BBa_K404119) | + | (BBa_K404119), pHelper, pRC). I: Transduced cells applied against mVenus, R10 |
- | + | comprised transduced cells, by detecting mVenus expression. J: Overlay of | |
- | + | non-transduced (red) and transduced (green) cells applied against mVenus.</span></p> | |
- | + | ||
</td> | </td> | ||
</tr> | </tr> | ||
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0cm;line-height:normal;page-break-after:avoid'><span lang=EN-US> </span><img | 0cm;line-height:normal;page-break-after:avoid'><span lang=EN-US> </span><img | ||
width=473 height=355 id="Diagramm 3" | width=473 height=355 id="Diagramm 3" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image012.gif"></p> |
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784545"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784545"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>9</span><span lang=EN-US>: Flow |
cytometry analysis of vectorplasmids with and without hGH terminator.</span><span | cytometry analysis of vectorplasmids with and without hGH terminator.</span><span | ||
lang=EN-US style='font-weight:normal'> YFP expression of viral genomes was | lang=EN-US style='font-weight:normal'> YFP expression of viral genomes was | ||
Line 872: | Line 530: | ||
<p class=MsoCaption><span lang=EN-US> </span></p> | <p class=MsoCaption><span lang=EN-US> </span></p> | ||
- | <h5><a name=" | + | <h5><a name="_Toc275800687"></a><a name="_Toc275797960"><span lang=EN-US>Influence |
- | intron Biobrick on GOI Expression</span></a></h5> | + | of <i>Beta-globin</i> intron Biobrick on GOI Expression</span></a></h5> |
<p class=MsoNormal><span lang=EN-US>Providing an element assumed to be an | <p class=MsoNormal><span lang=EN-US>Providing an element assumed to be an | ||
Line 879: | Line 537: | ||
lang=EN-US>(Nott et al. 2003)</span><span lang=EN-US>, the iGEM team Freiburg tested | lang=EN-US>(Nott et al. 2003)</span><span lang=EN-US>, the iGEM team Freiburg tested | ||
a beta-globin intron derived from the human <i>beta globin</i> gene which can | a beta-globin intron derived from the human <i>beta globin</i> gene which can | ||
- | be fused upstream of the desired gene of interest. The beta-globin intron | + | be fused upstream of the desired gene of interest. The beta-globin intron |
- | consists of a partial chimeric CMV promoter followed by the intron II of the <i>beta-globin</i> | + | BioBrick consists of a partial chimeric CMV promoter followed by the intron II |
- | gene. The 3´end of the intron is fused to the first 25 bases of human <i>beta | + | of the <i>beta-globin</i> gene. The 3´end of the intron is fused to the first 25 |
- | globin</i> gene exon 3. The <i>beta globin</i> intron BioBrick is assumed to | + | bases of human <i>beta globin</i> gene exon 3. The <i>beta globin</i> intron |
- | enhance eukaryotic gene expression </span><span | + | BioBrick is assumed to enhance eukaryotic gene expression </span><span lang=EN-US>(Nott et al. 2003)</span><span lang=EN-US>. Analysis was conducted as |
- | lang=EN-US>(Nott et al. 2003)</span><span lang=EN-US>. Analysis was conducted | + | described for the hGH terminator experiment (see above). As shown in </span><span lang=EN-US>Figure 9</span><span lang=EN-US> and </span><span |
- | as described for the hGH terminator experiment (see above). As shown in </span><span lang=EN-US>Figure 9</span><span lang=EN-US> and </span><span | + | |
lang=EN-US>Figure 10</span><span lang=EN-US> the vectorplasmid missing the <i>beta-globin</i> | lang=EN-US>Figure 10</span><span lang=EN-US> the vectorplasmid missing the <i>beta-globin</i> | ||
intron showed a negligible difference in mVenus expression compared to viral | intron showed a negligible difference in mVenus expression compared to viral | ||
Line 907: | Line 564: | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal'><img width=640 height=412 id="Grafik 55" | 0cm;line-height:normal'><img width=640 height=412 id="Grafik 55" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image013.gif"></p> |
</td> | </td> | ||
</tr> | </tr> | ||
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<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal;page-break-after:avoid'><img width=635 height=410 | 0cm;line-height:normal;page-break-after:avoid'><img width=635 height=410 | ||
- | id="Grafik 63" | + | id="Grafik 63" src="Freiburg10_Modularization_GOI-Dateien/image014.gif"></p> |
- | + | ||
</td> | </td> | ||
</tr> | </tr> | ||
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border-top:none;padding:0cm 5.4pt 0cm 5.4pt;height:106.5pt'> | border-top:none;padding:0cm 5.4pt 0cm 5.4pt;height:106.5pt'> | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784803"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784803"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>10</span><span lang=EN-US>: Flow |
cytometry analysis of vectorplasmids with and without <i>beta-globin</i> | cytometry analysis of vectorplasmids with and without <i>beta-globin</i> | ||
intron. A</span><span lang=EN-US style='font-weight:normal'>: Gating non | intron. A</span><span lang=EN-US style='font-weight:normal'>: Gating non | ||
Line 969: | Line 625: | ||
<td width=654 valign=top style='width:490.75pt;border:solid windowtext 1.0pt; | <td width=654 valign=top style='width:490.75pt;border:solid windowtext 1.0pt; | ||
padding:0cm 5.4pt 0cm 5.4pt;height:90.2pt'> | padding:0cm 5.4pt 0cm 5.4pt;height:90.2pt'> | ||
- | |||
- | |||
<p class=MsoNormal align=center style='margin-bottom:0cm;margin-bottom:.0001pt; | <p class=MsoNormal align=center style='margin-bottom:0cm;margin-bottom:.0001pt; | ||
text-align:center;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | text-align:center;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | ||
width=450 height=332 id="Diagramm 57" | width=450 height=332 id="Diagramm 57" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image015.gif"></p> |
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784805"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784805"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>11</span><span lang=EN-US>: |
Flow cytometry analysis of vectorplasmids with and without <i>beta-globin</i> | Flow cytometry analysis of vectorplasmids with and without <i>beta-globin</i> | ||
intron.</span><span lang=EN-US style='font-weight:normal'> 48-hours post | intron.</span><span lang=EN-US style='font-weight:normal'> 48-hours post | ||
Line 990: | Line 644: | ||
<p class=MsoNormal style='text-indent:0cm'><span lang=EN-US> </span></p> | <p class=MsoNormal style='text-indent:0cm'><span lang=EN-US> </span></p> | ||
- | <h5><a name=" | + | <h5><a name="_Toc275800688"></a><a name="_Toc275797961"><span lang=EN-US>Functionality |
- | Assembled Vectorplasmid Demonstrated by GOI Expression</span></a><span | + | of the Full Assembled Vectorplasmid Demonstrated by GOI Expression</span></a><span |
lang=EN-US> </span></h5> | lang=EN-US> </span></h5> | ||
- | <p class=MsoNormal><span lang=EN-US>After assembly of plasmids containing all | + | <p class=MsoNormal><span lang=EN-US>After assembly of plasmids containing all |
- | elements (see </span><span lang=EN-US>Figure 1</span><span lang=EN-US>), | + | required elements (see </span><span lang=EN-US>Figure 1</span><span lang=EN-US>), |
functionality was tested in cell culture. AAV-293 cells stably expressing E1A | functionality was tested in cell culture. AAV-293 cells stably expressing E1A | ||
and E1B proteins were transfected with three plasmids (pHelper, pRC, pGOI). | and E1B proteins were transfected with three plasmids (pHelper, pRC, pGOI). | ||
Line 1,021: | Line 675: | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal'><img width=634 height=409 id="Grafik 2068" | 0cm;line-height:normal'><img width=634 height=409 id="Grafik 2068" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image016.gif"></p> |
</td> | </td> | ||
</tr> | </tr> | ||
Line 1,031: | Line 685: | ||
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | <p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent: | ||
0cm;line-height:normal;page-break-after:avoid'><img width=630 height=407 | 0cm;line-height:normal;page-break-after:avoid'><img width=630 height=407 | ||
- | id="Grafik 89" | + | id="Grafik 89" src="Freiburg10_Modularization_GOI-Dateien/image017.gif"></p> |
- | + | ||
</td> | </td> | ||
</tr> | </tr> | ||
Line 1,039: | Line 692: | ||
border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | border-top:none;padding:0cm 5.4pt 0cm 5.4pt'> | ||
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784576"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784576"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>12</span><span lang=EN-US>: Flow |
cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared to | cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared to | ||
standard plasmid provided by Stratagene. A</span><span lang=EN-US | standard plasmid provided by Stratagene. A</span><span lang=EN-US | ||
Line 1,074: | Line 727: | ||
</table> | </table> | ||
- | <p class=MsoNormal | + | <p class=MsoNormal style='text-indent:0cm'><span lang=EN-US> </span></p> |
- | + | ||
- | + | ||
<p class=MsoNormal><span lang=EN-US> </span></p> | <p class=MsoNormal><span lang=EN-US> </span></p> | ||
Line 1,090: | Line 741: | ||
text-align:center;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | text-align:center;text-indent:0cm;line-height:normal;page-break-after:avoid'><img | ||
width=541 height=396 id="Diagramm 90" | width=541 height=396 id="Diagramm 90" | ||
- | src="Freiburg10_Modularization_GOI | + | src="Freiburg10_Modularization_GOI-Dateien/image018.gif"></p> |
<p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784852"><span | <p class=MsoCaption style='text-indent:0cm'><a name="_Ref275784852"><span | ||
- | lang=EN-US>Figure </span></a><span lang=EN-US> | + | lang=EN-US>Figure </span></a><span lang=EN-US>13</span><span lang=EN-US>: |
Flow cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared | Flow cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared | ||
to standard plasmid provided by Stratagene. </span><span lang=EN-US | to standard plasmid provided by Stratagene. </span><span lang=EN-US | ||
Line 1,103: | Line 754: | ||
</table> | </table> | ||
- | < | + | <h3 style='margin-left:0cm;text-indent:0cm'><a name="_Toc275800689"><span |
+ | lang=EN-US><span style='font:7.0pt "Times New Roman"'> | ||
+ | </span></span><span lang=EN-US>Conclusion</span></a></h3> | ||
+ | |||
+ | <p class=MsoNormal><span lang=EN-US>Idea of the modular ‘Virus Construction | ||
+ | Kit’ is to provide all required elements for producing recombinant, functional | ||
+ | virus particles delivering encapsidated genes of interest to specific cells. | ||
+ | First step was to modify and modularize the vectorplasmid comprising basically | ||
+ | the cis-elements for replication (ITRs), a strong eukaryotic or tissue specific | ||
+ | promoter (pCMV or phTERT), the gene of interest (fluorescent proteins or | ||
+ | suicide genes) and the hGH termination signal. Each element was successfully | ||
+ | cloned and reassembled resulting in functional vectorplasmids determined by flow | ||
+ | cytometry and fluorescence microscopy analyses. Experiments have been performed | ||
+ | with mVenus since measurement of fluorescent proteins can be easily performed | ||
+ | and visualized. Considering the results, the iGEM team Freiburg_Bioware 2010 | ||
+ | then tested the construct containing the suicide genes thymidine kinase and | ||
+ | cytosine deaminase. Further details demonstrating efficient tumor killing, | ||
+ | using prodrug-activating systems, see results page ‘Arming – Killing the | ||
+ | tumor’. </span></p> | ||
- | < | + | <h3 style='margin-left:0cm;text-indent:0cm'><a name="_Toc275800690"><span |
- | lang=EN-US style='font | + | lang=EN-US><span style='font:7.0pt "Times New Roman"'> |
- | + | </span></span><span lang=EN-US>References</span></a></h3> | |
- | + | ||
- | + | ||
- | <p style=' | + | <p style='text-indent:36.0pt'><span lang=EN-US style='font-size:10.0pt; |
- | style='font-size:10.0pt;font-family:"Calibri","sans-serif"'> | + | font-family:"Calibri","sans-serif"'>Danckwardt, S., Hentze, M.W. & Kulozik, |
- | + | A.E., 2008. 3' end mRNA processing: molecular mechanisms and implications for | |
- | + | health and disease. <i>The EMBO journal</i>, 27(3), 482-98. Available at: | |
- | + | http://www.ncbi.nlm.nih.gov/pubmed/18256699.</span></p> | |
- | <p style=' | + | <p style='text-indent:36.0pt'><span lang=EN-US style='font-size:10.0pt; |
- | style='font-size:10.0pt;font-family:"Calibri","sans-serif"'> | + | font-family:"Calibri","sans-serif"'>Dong, J.Y., Fan, P.D. & Frizzell, R.a., |
- | + | 1996. Quantitative analysis of the packaging capacity of recombinant | |
- | + | adeno-associated virus. <i>Human gene therapy</i>, 7(17), 2101-12. Available | |
- | + | at: http://www.ncbi.nlm.nih.gov/pubmed/8934224.</span></p> | |
- | <p style=' | + | <p style='text-indent:36.0pt'><span lang=EN-US style='font-size:10.0pt; |
- | style='font-size:10.0pt;font-family:"Calibri","sans-serif"'> | + | font-family:"Calibri","sans-serif"'>Millevoi, S. et al., 2006. An interaction |
- | S. | + | between U2AF 65 and CF I(m) links the splicing and 3' end processing |
- | + | machineries. <i>The EMBO journal</i>, 25(20), 4854-64. Available at: | |
- | Available at: http://www.ncbi.nlm.nih.gov/pubmed/ | + | http://www.ncbi.nlm.nih.gov/pubmed/17024186.</span></p> |
- | <p style=' | + | <p style='text-indent:36.0pt'><span lang=EN-US style='font-size:10.0pt; |
+ | font-family:"Calibri","sans-serif"'>Nott, A., Meislin, S.H. & Moore, M.J., | ||
+ | 2003. A quantitative analysis of intron effects on mammalian gene expression. <i>RNA | ||
+ | (New York, N.Y.)</i>, 9(5), 607-17. Available at: | ||
+ | http://www.ncbi.nlm.nih.gov/pubmed/12702819.</span></p> | ||
+ | <p style='text-indent:36.0pt'><span lang=EN-US> </span></p> | ||
</html> | </html> |
Revision as of 18:18, 25 October 2010
Contents
Introduction to Modularization of Vectorplasmid
Recombinant and Modular Vectorplasmid Carrying GOI
Cloning and Combination Strategies for the Vectorplasmid
Testing functionality of Assembled Vectorplasmid
Fluorescence Microscopy of Target Cells Demonstrates GOI Expression
Analysis of Target Cells by Flow Cytometry demonstrates GOI Expression
Influence of hGH terminator BioBrick on GOI Expression
Influence of Beta-globin intron Biobrick on GOI Expression
Functionality of the Full Assembled Vectorplasmid Demonstrated by GOI Expression
Introduction to Modularization of Vectorplasmid
Producing recombinant virus particles for therapeutical means is, besides specifically target cells, purification and quantification assays of AAV-2, one intention of the Virus Construction Kit provided by the iGEM team Freiburg_Bioware 2010. For obtaining a modular toolkit, the complex components of AAV-2 were extracted and redesigned to match the iGEM standard. Functional activity was tested in cell culture.
Differing from the wildtype AAV-2 genome, the Helper Free System provided by Stratagene comprises three plasmids and a specialized production cell line. AAV-293 cells derived from the HEK cell line express the stably integrated E1A and E1B helper proteins for efficient virus production. The plasmid containing the inverted terminal repeats (ITRs) is encapsidated into the preformed capsids after production of single-stranded DNA therefore also known as vectorplasmid (pGOI). Promoter, beta-globin intron and the hGH terminator signal are flanked by the ITRs and serve in the host cell for regulation of transgene expression. In addition to that, the plasmid coding for the Rep and Cap proteins (pRC) can be provided in trans leading to a layer of specificity due to the fact that the two genes are not packaged into the capsid since lacking of the ITRs impairs encapsidation. Another advantage of the Helper Free System can be attributed to cotransfection of another helper plasmid (pHelper), which provides the necessary proteins normally obtained by superinfection with helper viruses such as adenovirus or herpes simplex virus. These helper genes are required for full viral assembly by regulating gene expression of Rep and Cap proteins.
Recombinant and Modular Vectorplasmid Carrying GOI
The iGEM team Freiburg_Bioware 2010 provides a modular Virus Construction Kit for therapeutical applications, quantification assays and purification approaches depending on capsid modifications and the gene of interest flanked by the inverted terminal repeats (ITRs. In order to produce BioBrick-compatible standardized biological parts, we reengineered the plasmids and added new components for gene therapy approaches and analysis of biological activity of assembled BioBrick parts. Each element required for intact and functional plasmids comprising the ITRs, a promoter, a putative enhancer element and the hGH terminator was PCR amplified and fused together de novo. As shown in Figure 1, the vectorplasmid was assembled with the produced BioBricks consisting of the left and right ITR (BBa_K404100 and BBa_K404101), a promoter (pCMV :BBa_K404102 or phTERT: BBa_K404106)) , the beta-globin intron (BBa_K404107), the gene of interests (fluorescent proteins mVenus: BBa_I757008 and mCherry: BBa_J06504, suicide genes mGMK_TK30: BBa_K404112, mGMK_SR39: BBa_K404315 and CD: BBa_K404112) and the hGH terminator (BBa_K404108).
Figure 1: Overview of the theoretical sequence of each BioBrick provided within the Virus Construction Kit for an intact and fully functional rAAV genome. The plasmid in the lowest panel was used for tumor killing in combination with plasmids coding for modified capsid proteins. More detailed infomartion about these constructs can be found under ‘Arming: Killing the tumor’ and ‘N-terminal fusion for Targeting’. |
Cloning and Combination Strategies for the Vectorplasmid
Organization of the recombinant viral DNA was modified ensuring several layers of specificity to our systems including a tumor-specific promoter and suicide genes encoding prodrug convertases. In order to modularize the rAAV sequence, each plasmid element (Figure 1) was PCR-amplified and cloned into the iGEM standard plasmid pSB1C3. Furthermore, the iGEM team Freiburg_Bioware 2010 performed three site-directed mutagenesis in the gene of interest TK30 (BBa_K404109) and cytosine deaminase (BBa_K404112) for deletion of PstI and NgoMIV iGEM site (for further information see the results page of ‘Arming – Killing the tumor’). Since the inverted terminal repeats (ITRs) are GC-rich regions forming T-shaped hairpins during replication, PCR amplification was not possible. Hence a cloning strategy was developed by the iGEM team Freiburg in order to provide BioBrick-compatible ITRs (see ‘Method Development of Cloning Strategy for ITRs’).
In Figure 2 the schematic overview of the modularization process can be seen which has been followed to conduct the assembly steps required for functional vectorplasmids.
Figure 3: Assembly procedure for fusion of BioBricks and composite parts to a fully assembled and functional plasmid coding for your gene of interest. This plasmid can be cotransfected with two helper plasmids providing protein for assembly and encapsidating of the rAAV genome (your gene of interest) into the capsids. |
The iGEM team Freiburg_Bioware provides two examples demonstrating the assembly procedure for constructing vectorplasmids. The first representative example is the fusion of the BioBrick part beta-globin to the composite parts containing the 5´ elements of the plasmids, which are left ITR and CMV or phTERT promoter, respectively.
As shown in Figure 3 the theoretical cloning performed for assembling the BioBricks beta-globin intron and leftITR_CMV together can be observed.
Figure 4: Theoretical cloning of the composite part leftITR_CMV to the beta-globin intron BioBrick leading to the plasmid leftITR_CMV_beta-globin intron. |
The plasmids were digested with both XbaI and PstI (beta-globin intron: BBa_K404107) or SpeI and PstI (leftITR_CMV) and loaded on an agarose gel. As demonstrated in the preparative gel in Figure 4, the expected bands could be detected under UV light and the extracted DNA could be successfully ligated. Each assembly step for producing BioBrick intermediates was conducted following the same strategy.
Figure 5: Assembly intermediate in fusion of the vectorplasmids containing different promoters. Fusion of the BioBrick part beta-globin (BBa_K404107) intron to the composite parts leftITR_pCMV and leftITR_phTERT, respectively, was performed following the BioBrick assembly strategy by digesting the insert with PstI and XbaI and the vectors with SpeI and PstI. The left lane shows the expected fragment at around 560 bp which corresponds to the beta-globin intron fragment, in contrast to the two lanes in the center and on the right which correspond to linearized plasmids after digesting with above mentioned iGEM restriction sites. M, GeneRuler DNA ladder mix; Insert, pSB1C3_beta-globin intron; Vector pCMV, pSB1C3_leftITR_pCMV; Vector phTERT, pSB1C3_leftITR_phTERT. |
Separated fragments were extracted using the Gel Extraction Kit provided by Qiagen (Hilden, Germany) and ligated with T4-ligase. After ligation has been carried out, E. coli XL-1B cells were transformed and incubated over night at 37°C. Picking clones from the transformation plate was performed the following day and DYT medium was inoculated incubating overnight. Plasmid DNA was isolated and test digestion revealed that cloning was successful obtaining the composite part leftITR_CMV_beta-globin intron (BBa_K404117).
Plasmid production incorporating all required elements for transgene expression and genome encapsidation into empty viral capsids was performed by fusing the downstream elements consisting of the hGH terminator and right ITR to the intermediate part providing the gene of interest and the promoter fused to the left ITR. Figure 5 demonstrates the assembly performed with pSB1C3_leftITR_phTERT_beta-globin intron_mVenus and pSB1C3_hGH_rightITR (BBa_K404116). The fragment obtained after digestion on the left lane fits to the hGH-terminator_rightITR length. The isolated fragments were ligated and successful assembly was confirmed by test digestion obtaining the vectorplasmid pSB1C3_leftITR_phTERT_beta-globin intron_mVenus_hGH_rightITR (BBa_K404124).
Figure 6: Modularization of the assembled vectorplasmid containing the phTERT promoter and mVenus as gene of interest. Fusion of the composite pSB1C3_leftITR_phTERT_beta-globin intron_mVenus part to the composite parts pSB1C3_hGH_rightITR was performed following the BioBrick assembly strategy by digesting the insert with XbaI and PstI and the vector with SpeI and PstI. The left lane corresponds to linearized plasmid after digesting with above mentioned iGEM restriction sites whereas the right lane reveals an intensive band at around 650 bp confirming the expected size of 657 bp of hGH_rITR. M, GeneRuler DNA ladder mix; Vector, pSB1C3_leftITR_phTERT_beta-globin intron_mVenus; Insert, pSB1C3_ pSB1C3_hGH_rightITR. |
Since cloning does not confirm biological activity, we analyzed the plasmids and their functional components, hGH terminator and beta-globin intron, in cell culture. Assembled plasmids have been cotransfected, using AAV-293 cells, which provide the stable integrated E1A and E1B genes, with helper plasmids required for capsid assembly and genome encapsidation (pRC and pHelper) in a molar ratio of 1:1:1 (pGOI:pRC:pHelper). Virus particles containing the single stranded DNA were harvested 72-hours post transfection and HT1080 cells transduced with constant volumes of viral vectors. 48-hours post infection; transduced cells expressing the gene of interest were analyzed by flow cytometry. Facilitating and demonstrating the analysis of functionality of the assembled plasmid, mVenus was used in first place since fluorescent proteins enable facile visualization using fluorescent microscopy and flow cytometry analysis.
Testing functionality of Assembled Vectorplasmid
Fluorescence Microscopy of Target Cells Demonstrates GOI Expression
Qualitative analysis of mVenus expression by fluorescence microscopy was conducted using Axio Observer Z1 showing that transduced HT1080 cells and non-transduced cells could be easily distinguished. In Figure 6 cells were excited with 505nm and fluorescence emission at 536nm was detected. Therefore, successful infection of tumor cells by recombinant viral particles carrying the assembled vectorplasmid coding for mVenus could be demonstrated.
A |
B |
C |
D |
Figure 7: Fluorescence microscopy (Exciatation: 505nm, Emission: 536nm) was performed for detection of transduced cell expression mVenus. A:Cells detected in bright field picture B: Detection of mVenus expression can be observed. |
Analysis of Target Cells by Flow Cytometry demonstrates GOI Expression
Characterizing the function of the hGH terminator, the beta-globin intron and the complete plasmid, several approaches were conducted followed by analysis via flow cytometry.
Influence of hGH terminator BioBrick on GOI Expression
The iGEM team Freiburg provides the hGH plolyadenylation sequence within the ‘Virus Construction Kit’ due to the fact that almost every eukaryotic mRNA is processed at their 3´ and 5´end except for histone mRNAs (Millevoi et al. 2006). Pre-mRNAs contain two canonical conserved sequences. First, the polyadenylation signal “AATAAA” which is recognized by the multiprotein complex and second the GT-rich region (downstream sequence element, DSE) which is located 30 nucleotides downstream of the cleavage site. The assembled 3´end-processing machinery cleaves the mRNA transcript immediately after a CA-nucleotide therefore defining the cleavage site (Danckwardt et al. 2008). Recombinant vectorplasmids were engineered containing the inverted terminal repeats (ITRs), a strong eukaryotic promoter (CMV promoter: BBa_K404102) and mVenus as gene of interest with and without the hGH terminator signal. Transduction of HT1080 cells with constant volume of viral particles containing the vectorplasmids and measuring mVenus expression 24-hours post infection by flow cytometry demonstrated that transgene expression of the constructs lacking the hGH termination signal is significantly reduced as shown in Figure 7 and Figure 8 confirming the expected results that hGH is essential for mRNA processing. The iGEM team Freiburg_Bioware 2010 therefore suggests using the provided hGH termination signal within the Virus Construction Kit for optimal gene expression.
Vectorplasmid lacking hGH termination signal |
Vectorplasmid containing hGH terminator signal |
Figure 8: Flow cytometry analysis of vectorplasmids with and without hGH terminator. A: Gating non transduced cells (control); subcellular debris and clumps can be distinguished from single cells by size, estimated forward scatter (FS Lin) and granularity, estimated side scatter (SS Lin) B: Non transduced cells applied against mVenus (Analytical gate was set such that 1% or fewer of negative control cells fell within the positive region (R5). C: Gating transduced cells (R2 ≙R14) (used plasmids for transfection: GOI: pSB1C3_lITR_CMV_beta-globin intron_mVenus_rITR (BBa_K404127), pHelper, pRC). D: Transduced cells plotted against mVenus, R10 comprises transduced cells by detecting mVenus expression. E: Overlay of non-transduced (red) and transduced (green) cells applied against mVenus.F: Gating non-transduced cells (control) G: Non-transduced cells applied against mVenus. H: Gating transduced cells (R2 ≙R14) (used plasmids for transfection: GOI: reassembled pSB1C3_lITR_CMV_beta-globin_mVenus_hGH_rITR (BBa_K404119), pHelper, pRC). I: Transduced cells applied against mVenus, R10 comprised transduced cells, by detecting mVenus expression. J: Overlay of non-transduced (red) and transduced (green) cells applied against mVenus. |
Figure 9: Flow cytometry analysis of vectorplasmids with and without hGH terminator. YFP expression of viral genomes was determined by flow cytomery after 24-hour post infection. Results demonstrate that mVenus expression of vectorplasmids lacking the hGH terminator is reduced significantly proving that the polyadenylation signal is essential for viral gene expression using recombinant viral vectors engineered by using components of the Virus Construction Kit. |
Influence of Beta-globin intron Biobrick on GOI Expression
Providing an element assumed to be an enhancer of transgene expression (Nott et al. 2003), the iGEM team Freiburg tested a beta-globin intron derived from the human beta globin gene which can be fused upstream of the desired gene of interest. The beta-globin intron BioBrick consists of a partial chimeric CMV promoter followed by the intron II of the beta-globin gene. The 3´end of the intron is fused to the first 25 bases of human beta globin gene exon 3. The beta globin intron BioBrick is assumed to enhance eukaryotic gene expression (Nott et al. 2003). Analysis was conducted as described for the hGH terminator experiment (see above). As shown in Figure 9 and Figure 10 the vectorplasmid missing the beta-globin intron showed a negligible difference in mVenus expression compared to viral genomes containing the beta-globin intron. Considering these results and taking into account that a constant volume of viral particles has been used for transduction, the difference between the construct containing and lacking the beta-globin intron is minimal. Since packaging efficiency of the AAV-2 decreases with increasing sizes of the insert (Dong et al. 1996), the iGEM team Freiburg_Bioware suggests using the beta-globin intron in dependence on the size of your transgene.
Vectorplasmid lacking beta-globin intron |
Vectorplasmid containing beta-globin intron |
Figure 10: Flow cytometry analysis of vectorplasmids with and without beta-globin intron. A: Gating non transduced cells (control); subcellular debris and clumps can be distinguished from single cells by size, estimated forward scatter (FS Lin) and granularity, estimated side scatter (SS Lin) B: Non transduced cells applied against mVenus (Analytical gate was set such that 1% or fewer of negative control cells fell within the positive region (R5). C: Gating transduced cells (R2 ≙R14) (used plasmids for transfection: GOI: pSB1C3_lITR_CMV_mVenus_hGH_rITR (BBa_K404128), pHelper, pRC). D: Transduced cells plotted against mVenus, R10 comprised transduced cells, by detecting mVenus expression E: Overlay of non-transduced (red) and transduced (green) cells applied against mVenus F: Gating non-transduced cells (control). G: Non-transduced cells applied against mVenus (R5).H: Gating transduced cells (R2 ≙R14) (used plasmids for transfection: GOI: reassembled pSB1C3_lITR_CMV_beta-globin_mVenus_hGH_rITR (BBa_K404119), pHelper, pRC). I: Transduced cells applied against mVenus, R10 comprised transduced cells, by detecting mVenus expression. J: Overlay of non-transduced (red) and transduced (green) cells applied against mVenus. |
Figure 11: Flow cytometry analysis of vectorplasmids with and without beta-globin intron. 48-hours post transfection, viral particles were harvested by freeze-thaw lysis and centrifugation followed by HT1080 transduction. YFP expression of vectorplasmids was determined by flow cytometry 24-hours post infection. The vectorplasmid missing the beta-globin intron showed a negligible difference in mVenus expression compared to viral plasmid containing the beta-globin intron. |
Functionality of the Full Assembled Vectorplasmid Demonstrated by GOI Expression
After assembly of plasmids containing all required elements (see Figure 1), functionality was tested in cell culture. AAV-293 cells stably expressing E1A and E1B proteins were transfected with three plasmids (pHelper, pRC, pGOI). Virus particles were harvested 72-hours post-transfection and the tumor cell line HT1080 was transduced with the recombinant viral vectors encapsidating the gene of interest mVenus (BBa_I757008).
The iGEM team Freiburg_Bioware 2010 compared the standard-plasmid containing a subcloned mVenus (pAAV_mVenus, derived from the Stratagene system) with the assembled plasmid pSB1C3_lITR_CMV_beta-globin_mVenus_hGH_rITR (pSB1C3_mVenus: BBa_K404119). Fluorescence expression data obtained by flow cytometry analysis are shown in Figure 11 and Figure 12. Comparing mVenus expression of the standard plasmid and the modified, assembled plasmid reveals that biological functionality of the reassembled plasmid was confirmed.
pSB1C3_mVenus (BBa_K404119) |
pAAV_mVenus (Stratagene) |
Figure 12: Flow cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared to standard plasmid provided by Stratagene. A: Gating non transduced cells (control); subcellular debris and clumps can be distinguished from single cells by size, estimated forward scatter (FS Lin) and granularity, estimated side scatter (SS Lin) B: Non transduced cells plotted against mVenus (Analytical gate was set such that 1% or fewer of negative control cells fell within the positive region (R5).C: Gating transduced cells (R2 ≙R14) (used plasmids for transfection: pGOI: pSB1C3_lITR_CMV_beta-globin_mVenus_hGH_rITR (pSB1C3_mVenus: BBa_K404119), pHelper, pRC. D: Transduced cells plotted against mVenus, R10 comprised transduced cells, by detecting mVenus expression. E: Overlay of non-transduced (red) and transduced (green). F: Gating non transduced cells (control). G: Non-transduced cells plotted against mVenus (R5). H: Gating transduced cells (R14 ≙R2) (used plasmids for transfection: pGOI: pAAV_mVenus, pHelper). I: Transduced cells plotted against mVenus, R10 comprised transduced cells, by detecting mVenus expression. J: Overlay of non-transduced (red) and transduced (green) cells plotted against mVenus expression. |
Figure 13: Flow cytometry analysis of reassembled vectorplasmid (BBa_K404119) compared to standard plasmid provided by Stratagene. Fluorescence of the standard plasmid pAAV_mVenus (Stratagene) and the recombinant pSB1C3_mVenus (BBa_K404119) construct was measured. As demonstrated mVenus expression is enhanced in the assembled plasmid (pSB1C3_mVenus) compared to the standard pAAV_mVenus construct. |
Conclusion
Idea of the modular ‘Virus Construction Kit’ is to provide all required elements for producing recombinant, functional virus particles delivering encapsidated genes of interest to specific cells. First step was to modify and modularize the vectorplasmid comprising basically the cis-elements for replication (ITRs), a strong eukaryotic or tissue specific promoter (pCMV or phTERT), the gene of interest (fluorescent proteins or suicide genes) and the hGH termination signal. Each element was successfully cloned and reassembled resulting in functional vectorplasmids determined by flow cytometry and fluorescence microscopy analyses. Experiments have been performed with mVenus since measurement of fluorescent proteins can be easily performed and visualized. Considering the results, the iGEM team Freiburg_Bioware 2010 then tested the construct containing the suicide genes thymidine kinase and cytosine deaminase. Further details demonstrating efficient tumor killing, using prodrug-activating systems, see results page ‘Arming – Killing the tumor’.
References
Danckwardt, S., Hentze, M.W. & Kulozik, A.E., 2008. 3' end mRNA processing: molecular mechanisms and implications for health and disease. The EMBO journal, 27(3), 482-98. Available at: http://www.ncbi.nlm.nih.gov/pubmed/18256699.
Dong, J.Y., Fan, P.D. & Frizzell, R.a., 1996. Quantitative analysis of the packaging capacity of recombinant adeno-associated virus. Human gene therapy, 7(17), 2101-12. Available at: http://www.ncbi.nlm.nih.gov/pubmed/8934224.
Millevoi, S. et al., 2006. An interaction between U2AF 65 and CF I(m) links the splicing and 3' end processing machineries. The EMBO journal, 25(20), 4854-64. Available at: http://www.ncbi.nlm.nih.gov/pubmed/17024186.
Nott, A., Meislin, S.H. & Moore, M.J., 2003. A quantitative analysis of intron effects on mammalian gene expression. RNA (New York, N.Y.), 9(5), 607-17. Available at: http://www.ncbi.nlm.nih.gov/pubmed/12702819.