Latest revision as of 01:45, 18 October 2014

PARTS

DNA parts submitted by the 2014 EPFL iGEM team

Our team submitted a total of 55 Biobricks (part 51 does not exist).

In addition, 4 microfluidic designs have also been submitted to the registry.

Biobrick	What it is	Function	Why do we use it?	Group
BBa_K1486000	CpxR coding sequence	Transcription factor	To make most of our biobricks!	Bacteria
BBa_K1486001	Arabinose promoter + CpxR	Transcription factor		Bacteria
BBa_K1486002	Arabinose promoter + sfGFP-CpxR [Nterm]	Expresses fused protein	Test CpxR expression & Ara promoter	Bacteria
BBa_K1486003	Flexible linker 2x (GGGS)	Attaches two proteins together		Bacteria
BBa_K1486004	Flexible linker 2x (GGGGS)	Attaches two proteins together		Bacteria
BBa_K1486005	Arabinose promoter + sfGFP-CpxR [Cterm]	Expresses fused protein	Test CpxR expression & Ara promoter	Bacteria
BBa_K1486006	IFP[1]	N terminus of split IFP		Bacteria
BBa_K1486007	IFP[2]	C terminus of split IFP		Bacteria
BBa_K1486008	CpxR & Split IFP1.4 [Cterm + Cterm]	Two CpxR CDS, each C terminus attached to a moiety of IFP	Characterize CpxR dimerization	Bacteria
BBa_K1486009	CpxR & Split IFP1.4 [Nterm + Nterm]	Two CpxR CDS, each N terminus attached to a moiety of IFP	Characterize CpxR dimerization	Bacteria
BBa_K1486010	CpxR & Split IFP1.4 [Nterm + Cterm]	Two CpxR CDS, each attached to a moiety of IFP	Characterize CpxR dimerization	Bacteria
BBa_K1486011	CpxR & Split IFP1.4 [Cterm + Nterm]	Two CpxR CDS, each attached to a moiety of IFP	Characterize CpxR dimerization	Bacteria
BBa_K1486012	CpxR-IFP[1] under pBAD	CpxR with the Nterm moiety of IFP attached at its C terminus	Intermediate & control	Bacteria
BBa_K1486013	CpxR-IFP[2] under pBAD	CpxR with the Cterm moiety of IFP attached at its C terminus	Intermediate & control	Bacteria
BBa_K1486014	IFP[1]-CpxR under pBAD	CpxR with the Nterm moiety of IFP attached at its N terminus	Intermediate & control	Bacteria
BBa_K1486015	IFP[2]-CpxR under pBAD	CpxR with the Cterm moiety of IFP attached at its N terminus	Intermediate & control	Bacteria
BBa_K1486016	fLuc[1]	N terminus moiety of the firefly luciferase		Bacteria
BBa_K1486017	fLuc[2]	C terminus moiety of the firefly luciferase		Bacteria
BBa_K1486018	Arabinose promoter + fLuc[1] + fLuc[2]	Split firefly luciferase under arabinose promoter	Control	Bacteria
BBa_K1486019	rLuc[1]	C terminus moiety of the renilla luciferase		Bacteria
BBa_K1486020	rLuc[2]	N terminus moiety of the renilla luciferase		Bacteria
BBa_K1486021	Arabinose promoter + rLuc[1] + rLuc[2]	Split renilla luciferase under arabinose promoter	Control	Bacteria
BBa_K1486022	Renilla Luciferase	Full renilla luciferase	Control	Bacteria
BBa_K1486023	Yeast optimized superfolder GFP	Yeast optimised superfolder GFP	Reporter	Yeast
BBa_K1486024	Yeast kanamycin resistance	Yeast kanamycin resistance	Selection marker	Yeast
BBa_K1486025	ADH1 terminator	Terminator	Abortion of the transcription at the end of our DNA sequences	Yeast
BBa_K1486026	sfGFP + Kanamycin resistance for yeast	Tag	Control for the expression of Pbs2	Yeast
BBa_K1486027	R.reniformis luciferase + ADH1 terminator + Kanamycin resistance	Tag	Control for the expression of Pbs2	Yeast
BBa_K1486028	Yeast optimized sfGFP N-terminus (1-214)	Yeast optimized sfGFP N-terminus (1-214)		Yeast
BBa_K1486029	Yeast Optimized sfGFP-N + ADH1 terminator + Kanamycin resistance	N terminal moiety of split sfGFP	Complementation Assay	Yeast
BBa_K1486030	rLucN + ADH1 terminator + Kanamycin resistance	N terminal moiety of split rLuc	Complementation Assay	Yeast
BBa_K1486031	CaUra3 selection marker	selection marker	Confer resistance to Uracil-deprived medium	Yeast
BBa_K1486032	sfGFP + ADH1 terminator + Ura3 cassette	Tag	Control for the expression of hog1	Yeast
BBa_K1486033	sfGFP + ADH1 terminator + Ura3 cassette	Tag	Control for the expression of hog1	Yeast
BBa_K1486034	Yeast optimized superfolder GFP C-terminus (215-238)	Yeast optimized superfolder GFP C-terminus (215-238)		Yeast
BBa_K1486035	Yeast Optimized sfGFP-C + ADH1 terminator + CaUra3 Cassette	C terminal moiety of split sfGFP	Complementation Assay	Yeast
BBa_K1486036	rLucC + ADH1 terminator + CaUra3 cassette	C terminal moiety of split rLuc	Complementation Assay	Yeast
BBa_K1486037	13 amino acids linker [GGGS GGGGS GGGS]	linker	Attach Pbs2 or Hog1 to our different tags and splits	Yeast
BBa_K1486038	sfGFPN	N terminus moiety of split superfolder GFP		Bacteria
BBa_K1486039	sfGFPC	C terminus moiety of split superfolder GFP		Bacteria
BBa_K1486040	sfGFPN + CpxR	N terminus moiety of split sfGFP attached to CpxR		Bacteria
BBa_K1486041	sfGFPC + CpxR	C terminus moiety of split sfGFP attached to CpxR		Bacteria
BBa_K1486042	Leucine Zipper	Monomer of leucine zipper TF		Bacteria
BBa_K1486043	Leucine Zipper + split rLuc	Two Leucine Zipper monomers, each attached to a different split rLuc moiety	Control for split rLuc assays	Bacteria
BBa_K1486044	IFP[1] Mutated	Biobrick-compatible IFP[1]		Bacteria
BBa_K1486045	IFP[2] Mutated	Biobrick-compatible IFP[2]		Bacteria
BBa_K1486046	CpxR promoter FW	CpxR binding-region in forward direction		Bacteria
BBa_K1486047	CpxR promoter RV	CpxR binding-region in reverse direction		Bacteria
BBa_K1486048	CpxR reporter	Calgary's CpxR reporter repaired (sequence was missing)	To see when CpxR is active	Bacteria
BBa_K1486049	CpxR promoter FW + RFP	Reporter of CpxR	Test the direction of the complete CpxR promoter	Bacteria
BBa_K1486050	CpxR promoter RV + RFP	Reporter of CpxR	Test the direction of the complete CpxR promoter	Bacteria
BBa_K1486052	Spacer	40 bases placed between constructs	Separate two constructs in the same plasmid	Bacteria
BBa_K1486053	10 aa linker	10 amino-acid linker	Attach CheY/Z to split luciferases	Bacteria
BBa_K1486054	CheY/CheZ + split rLuc	CheY and CheZ, each attached to a moiety of split renilla luciferase	Positive control for the split rLuc	Bacteria
BBa_K1486055	CheY/CheZ + split fLuc	CheY and CheZ, each attached to a moiety of split firefly luciferase	Positive control for the split fLuc	Bacteria
BBa_K1486056	CpxR & Split IFP1.4 [Cterm + Cterm][2]	Two CpxR CDS, each C terminus attached to a moiety of the biobrick-compatible IFP	Characterize CpxR dimerization	Bacteria

Microfluidics parts (chips created)

Our team designed and made 4 microfluidic chips. At the beginning, we also used the MITOMI chip.

When designing the chips, the team took into account the future users and the current iGEM classification of parts. We considered it best to construct our chips as composite microfluidic parts, so their sub-parts could be used and combined in multiple ways. The flow and control layers can be separated and reused, as well as all the basic structures (chamber + connecting channel), nodes, array parts,...

By clicking on each of the designs' name, you can download the original files.

Name	Main Function
SmashColi	To be able to separate the chip in 4 different compartments and apply 4 different pressures on each row of chambers.
The BioPad	A large and simple microfluidic chip containing 6400 chambers in which the cells are contained in. Each chamber acts as a pixel for the BioPad project.
CleanColi	As a result of our Safety page, we decided to create a chip that is able to seal the bacteria in the chip, preventing them to leave the chip.
FilterColi	To successfully immerse cells in a certain solution, this chip was designed to flow in the new medium in the chambers instead of doing it by diffusion.

Team:EPF Lausanne/Parts

From 2014.igem.org

Latest revision as of 01:45, 18 October 2014

PARTS

DNA parts submitted by the 2014 EPFL iGEM team

Microfluidics parts (chips created)

Sponsors

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+                  <li class="dropdown"><a href="#" class="dropdown-toggle" data-toggle="dropdown"><i class="glyphicon glyphicon-star"></i> Achievements <b class="caret"></b></a>
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 <div id="parts">
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+<div class="align-left">
 <h1 class="cntr">PARTS</h1>
+<br/>
+<section id="dna">
-<h2 class="section-heading">Parts submitted by the 2014 EPFL iGEM team</h2>
+<h3 class="section-heading">DNA parts submitted by the 2014 EPFL iGEM team</h3>
 <p class="lead">
-Our team submitted a total of XXX Biobricks.
+Our team submitted a total of 55 Biobricks (part 51 does not exist).</p>
+<p class="lead">
+In addition, 4 microfluidic designs have also been submitted to the registry.</p>
 <table class="table table-striped table-hover" id="biobricks_list">
    <tr>
      <th>Biobrick</th>
-     <th>What it is?</th>
+     <th>What it is</th>
      <th>Function</th>
      <th>Why do we use it?</th>
+    <th>Group</th>
    </tr>
    <tr>
@@ Line 98: / Line 153: @@
      <td>Transcription factor</td>
      <td>To make most of our biobricks!</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486001</td>
-     <td>CpxR under arabinose promoter</td>
+     <td>Arabinose promoter + CpxR</td>
-     <td>Treanscription factor</td>
+     <td>Transcription factor</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486002</td>
-     <td>PAra + sfGFP CpxR</td>
+     <td> Arabinose promoter + sfGFP-CpxR [Nterm]</td>
      <td>Expresses fused protein</td>
      <td>Test CpxR expression & Ara promoter</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486003</td>
-     <td>Flexible linker</td>
+     <td>Flexible linker  2x (GGGS)</td>
      <td>Attaches two proteins together</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486004</td>
-     <td>Flexible linker</td>
+     <td>Flexible linker 2x (GGGGS)</td>
      <td>Attaches two proteins together</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486005</td>
-     <td>PAra + CpxR sfGFP</td>
+     <td>Arabinose promoter + sfGFP-CpxR [Cterm]</td>
      <td>Expresses fused protein</td>
      <td>Test CpxR expression & Ara promoter</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
@@ Line 133: / Line 194: @@
      <td>IFP[1]</td>
      <td>N terminus of split IFP</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
@@ Line 139: / Line 201: @@
      <td>IFP[2]</td>
      <td>C terminus of split IFP</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486008</td>
-     <td>CxpR & Split IFP1.4 [Cterm + Cterm]</td>
+     <td>CpxR & Split IFP1.4 [Cterm + Cterm]</td>
      <td>Two CpxR CDS, each C terminus attached to a moiety of IFP</td>
      <td>Characterize CpxR dimerization</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486009</td>
-     <td>CxpR & Split IFP1.4 [Nterm + Nterm]</td>
+     <td>CpxR & Split IFP1.4 [Nterm + Nterm]</td>
      <td>Two CpxR CDS, each N terminus attached to a moiety of IFP</td>
      <td>Characterize CpxR dimerization</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486010</td>
-     <td>CxpR & Split IFP1.4 [Nterm + Cterm]</td>
+     <td>CpxR & Split IFP1.4 [Nterm + Cterm]</td>
      <td>Two CpxR CDS, each attached to a moiety of IFP</td>
      <td>Characterize CpxR dimerization</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486011</td>
-     <td>CxpR & Split IFP1.4 [Cterm + Nterm]</td>
+     <td>CpxR & Split IFP1.4 [Cterm + Nterm]</td>
      <td>Two CpxR CDS, each attached to a moiety of IFP</td>
      <td>Characterize CpxR dimerization</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486012</td>
-     <td>CpxR + Nterm IFP</td>
+     <td>CpxR-IFP[1] under pBAD</td>
      <td>CpxR with the Nterm moiety of IFP attached at its C terminus</td>
      <td>Intermediate & control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486013</td>
-     <td>CpxR + Cterm IFP</td>
+     <td>CpxR-IFP[2] under pBAD</td>
      <td>CpxR with the Cterm moiety of IFP attached at its C terminus</td>
      <td>Intermediate & control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486014</td>
-     <td>Nterm IFP + CpxR</td>
+     <td>IFP[1]-CpxR under pBAD</td>
      <td>CpxR with the Nterm moiety of IFP attached at its N terminus</td>
      <td>Intermediate & control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486015</td>
-     <td>Cterm IFP + CpxR</td>
+     <td>IFP[2]-CpxR under pBAD</td>
      <td>CpxR with the Cterm moiety of IFP attached at its N terminus</td>
      <td>Intermediate & control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486016</td>
-     <td>Nterm fLuc</td>
+     <td>fLuc[1]</td>
      <td>N terminus moiety of the firefly luciferase</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486017</td>
-     <td>Cterm fLuc</td>
+     <td>fLuc[2]</td>
      <td>C terminus moiety of the firefly luciferase</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486018</td>
-     <td>PAra + Nterm fLuc + Cterm fLuc</td>
+     <td>Arabinose promoter + fLuc[1] + fLuc[2]</td>
      <td>Split firefly luciferase under arabinose promoter</td>
      <td>Control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486019</td>
-     <td>Nterm rLuc</td>
+     <td>rLuc[1]</td>
      <td>C terminus moiety of the renilla luciferase</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486020</td>
-     <td>Cterm rLuc</td>
+     <td>rLuc[2]</td>
      <td>N terminus moiety of the renilla luciferase</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486021</td>
-     <td>PAra + Nterm rLuc + Cterm rLuc</td>
+     <td>Arabinose promoter + rLuc[1] + rLuc[2]</td>
      <td>Split renilla luciferase under arabinose promoter</td>
      <td>Control</td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486022</td>
-     <td>rLuc</td>
+     <td> Renilla Luciferase</td>
      <td>Full renilla luciferase</td>
      <td>Control</td>
+    <td>Bacteria</td>
    </tr>
 <tr>
      <td class="biobrick_name">BBa_K1486023</td>
-     <td>Yeast sfGFP</td>
+     <td>Yeast optimized superfolder GFP</td>
-     <td>Superfolder GFP for yeast cells</td>
+     <td>Yeast optimised superfolder GFP</td>
      <td>Reporter</td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486024</td>
-     <td>Kan</td>
+     <td>Yeast kanamycin resistance</td>
-     <td>Yeast kanamycin resistance gene</td>
+     <td>Yeast kanamycin resistance</td>
      <td>Selection marker</td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486025</td>
      <td>ADH1 terminator</td>
-     <td></td>
+     <td>Terminator</td>
-     <td></td>
+     <td>Abortion of the transcription at the end of our DNA sequences</td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486026</td>
-     <td></td>
+     <td>sfGFP + Kanamycin resistance for yeast </td>
-     <td></td>
+     <td>Tag</td>
-     <td></td>
+     <td>Control for the expression of Pbs2</td>
+    <td>Yeast</td>
    </tr>
 <tr>
      <td class="biobrick_name">BBa_K1486027</td>
-     <td></td>
+     <td>R.reniformis luciferase + ADH1 terminator + Kanamycin resistance</td>
-     <td></td>
+     <td>Tag</td>
-     <td></td>
+     <td>Control for the expression of Pbs2 </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486028</td>
-     <td></td>
+     <td>Yeast optimized sfGFP N-terminus (1-214)</td>
-     <td></td>
+     <td>Yeast optimized sfGFP N-terminus (1-214)</td>
-     <td></td>
+     <td> </td>
+    <td>Yeast</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486029</td>
+    <td>Yeast Optimized sfGFP-N + ADH1 terminator + Kanamycin resistance</td>
+    <td>N terminal moiety of split sfGFP</td>
+    <td>Complementation Assay </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486030</td>
-     <td></td>
+     <td>rLucN + ADH1 terminator + Kanamycin resistance</td>
-     <td></td>
+     <td>N terminal moiety of split rLuc</td>
-     <td></td>
+     <td>Complementation Assay  </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486031</td>
-     <td></td>
+     <td>CaUra3 selection marker</td>
-     <td></td>
+     <td>selection marker</td>
-     <td></td>
+     <td>Confer resistance to Uracil-deprived medium</td>
+    <td>Yeast</td>
    </tr>
 <tr>
      <td class="biobrick_name">BBa_K1486032</td>
-     <td></td>
+     <td>sfGFP + ADH1 terminator + Ura3 cassette</td>
-     <td></td>
+     <td>Tag</td>
-     <td></td>
+     <td>Control for the expression of hog1</td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486033</td>
-     <td></td>
+     <td>sfGFP + ADH1 terminator + Ura3 cassette</td>
-     <td></td>
+     <td>Tag</td>
-     <td></td>
+     <td>Control for the expression of hog1</td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486034</td>
-     <td></td>
+     <td>Yeast optimized superfolder GFP C-terminus (215-238)</td>
-     <td></td>
+     <td>Yeast optimized superfolder GFP C-terminus (215-238)</td>
-     <td></td>
+     <td> </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486035</td>
-     <td></td>
+     <td>Yeast Optimized sfGFP-C + ADH1 terminator + CaUra3 Cassette</td>
-     <td></td>
+     <td>C terminal moiety of split sfGFP</td>
-     <td></td>
+     <td>Complementation Assay </td>
+    <td>Yeast</td>
    </tr>
 <tr>
      <td class="biobrick_name">BBa_K1486036</td>
-     <td></td>
+     <td>rLucC + ADH1 terminator + CaUra3 cassette</td>
-     <td></td>
+     <td>C terminal moiety of split rLuc</td>
-     <td></td>
+     <td>Complementation Assay </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486037</td>
-     <td></td>
+     <td>13 amino acids linker [GGGS GGGGS GGGS]</td>
-     <td></td>
+     <td>linker</td>
-     <td></td>
+     <td>Attach Pbs2 or Hog1 to our different tags and splits </td>
+    <td>Yeast</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486038</td>
-     <td></td>
+     <td>sfGFPN</td>
-     <td></td>
+     <td>N terminus moiety of split superfolder GFP</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486039</td>
-     <td></td>
+     <td>sfGFPC</td>
-     <td></td>
+     <td>C terminus moiety of split superfolder GFP</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486040</td>
-     <td></td>
+     <td>sfGFPN + CpxR</td>
-     <td></td>
+     <td>N terminus moiety of split sfGFP attached to CpxR</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
    </tr>
    <tr>
      <td class="biobrick_name">BBa_K1486041</td>
-     <td></td>
+     <td>sfGFPC + CpxR</td>
-     <td></td>
+     <td>C terminus moiety of split sfGFP attached to CpxR</td>
-     <td></td>
+     <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486042</td>
+    <td>Leucine Zipper</td>
+    <td>Monomer of leucine zipper TF</td>
+    <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486043</td>
+    <td>Leucine Zipper + split rLuc</td>
+    <td>Two Leucine Zipper monomers, each attached to a different split rLuc moiety</td>
+    <td>Control for split rLuc assays</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486044</td>
+    <td>IFP[1] Mutated</td>
+    <td>Biobrick-compatible IFP[1]</td>
+    <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486045</td>
+    <td>IFP[2] Mutated</td>
+    <td>Biobrick-compatible IFP[2]</td>
+    <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486046</td>
+    <td>CpxR promoter FW</td>
+    <td>CpxR binding-region in forward direction</td>
+    <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486047</td>
+    <td>CpxR promoter RV</td>
+    <td>CpxR binding-region in reverse direction</td>
+    <td> </td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486048</td>
+    <td>CpxR reporter</td>
+    <td>Calgary's CpxR reporter repaired (sequence was missing)</td>
+    <td>To see when CpxR is active</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486049</td>
+    <td>CpxR promoter FW + RFP</td>
+    <td>Reporter of CpxR</td>
+    <td>Test the direction of the complete CpxR promoter</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486050</td>
+    <td>CpxR promoter RV + RFP</td>
+    <td>Reporter of CpxR</td>
+    <td>Test the direction of the complete CpxR promoter</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486052</td>
+    <td>Spacer</td>
+    <td>40 bases placed between constructs</td>
+    <td>Separate two constructs in the same plasmid</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486053</td>
+    <td>10 aa linker</td>
+    <td>10 amino-acid linker</td>
+    <td>Attach CheY/Z to split luciferases</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486054</td>
+    <td>CheY/CheZ + split rLuc</td>
+    <td>CheY and CheZ, each attached to a moiety of split renilla luciferase</td>
+    <td>Positive control for the split rLuc</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486055</td>
+    <td>CheY/CheZ + split fLuc</td>
+    <td>CheY and CheZ, each attached to a moiety of split firefly luciferase</td>
+    <td>Positive control for the split fLuc</td>
+    <td>Bacteria</td>
+  </tr>
+  <tr>
+    <td class="biobrick_name">BBa_K1486056</td>
+    <td>CpxR & Split IFP1.4 [Cterm + Cterm][2]</td>
+    <td>Two CpxR CDS, each C terminus attached to a moiety of the biobrick-compatible IFP</td>
+    <td>Characterize CpxR dimerization</td>
+    <td>Bacteria</td>
    </tr>
 </table>
+</section>
 <br /><br />
+<section id="microfluidics">
+<h3 class="section-heading">Microfluidics parts (chips created)</h3>
+<p class="lead">
+Our team designed and made 4 microfluidic chips. At the beginning, we also used the <a target="_blank" href="http://link.springer.com/protocol/10.1007%2F978-1-61779-292-2_6">MITOMI chip</a>.</p>
+<p class="lead">When designing the chips, the team took into account the future users and the current iGEM classification of parts. We considered it best to construct our chips as composite microfluidic parts, so their sub-parts could be used and combined in multiple ways. The flow and control layers can be separated and reused, as well as all the basic structures (chamber + connecting channel), nodes, array parts,...</p>
+<p>By clicking on each of the designs' name, you can download the original files.</p>
+<!-- send all lines here: https://2014.igem.org/Team:EPF_Lausanne/Microfluidics/Designing -->
+<table class="table table-striped table-hover" id="chips_list">
+  <tr>
+    <th>Name</th>
+    <th>Main Function</th>
+  </tr>
+  <tr>
+    <td><a target="_blank" href="https://static.igem.org/mediawiki/2014/b/b7/SmashColi_iGEM_EPFL_2014.zip">SmashColi</a></td>
+    <td>To be able to separate the chip in 4 different compartments and apply 4 different pressures on each row of chambers.</td>
+  </tr>
+  <tr>
+    <td><a target="_blank" href="https://static.igem.org/mediawiki/2014/3/33/TheBioPad_iGEM_EPFL_2014.zip">The BioPad</a></td>
+    <td>A large and simple microfluidic chip containing 6400 chambers in which the cells are contained in. Each chamber acts as a pixel for the BioPad project.</td>
+  </tr>
+  <tr>
+    <td><a target="_blank" href="https://static.igem.org/mediawiki/2014/b/b3/CleanColi_iGEM_EPFL_2014.zip">CleanColi</a></td>
+    <td>As a result of our Safety page, we decided to create a chip that is able to seal the bacteria in the chip, preventing them to leave the chip.</td>
+  </tr>
+  <tr>
+    <td><a target="_blank" href="https://static.igem.org/mediawiki/2014/7/79/FilterColi_iGEM_EPFL_2014.zip">FilterColi</a></td>
+    <td>To successfully immerse cells in a certain solution, this chip was designed to flow in the new medium in the chambers instead of doing it by diffusion.</td>
+  </tr>
+</table>
+</section>
+<br /><br />
 </div>
 </div>
+</div>
 </div>
+<div class="col col-md-3">
+<nav id="affix-nav" class="sidebar hidden-sm hidden-xs">
+    <ul class="nav sidenav box" data-spy="affix" data-offset-top="200" data-offset-bottom="400">
+        <li class="active"><a href="#dna">DNA Parts</a></li>
+        <li><a href="#microfluidics">Microfluidics Parts</a></li>
+    </ul>
+</nav>
+</div>
+</div>
+</div>
 <!-- END ABSTRACT -->
+<script type="text/javascript">
+    $(document).ready(function() {
+      $('#biobricks_list tr').click(function (e) {
+        text = $(this).children('td.biobrick_name').first().text();
+        if (text != '') {
+          return window.open('http://parts.igem.org/Part:' + text, '_blank');
+        }
+      });
+    });
+</script>
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