Difference between revisions of "Team:SDU-Denmark/Perspectives"

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<ul class="list">
 
<ul class="list">
 
<li><i><a href="#antibiotics">Combination of traditional antibiotics with bacteriocins</a></i></li>
 
<li><i><a href="#antibiotics">Combination of traditional antibiotics with bacteriocins</a></i></li>
<li><i><a href="#determine">Determination of bacteriocin protein concentration using Bradford Protein Assay</a></i></li>
+
<li><i><a href="#electricfields">Combination with pulsed electric fields</a></i></li>
<li><i><a href="#effect">Inhibition of growth of S. aureus MRSA strains and P. aeruginosa detected by MIC</a></i></li>
+
<li><i><a href="#probiotics">Bacteriocins as probiotics</a></i></li>
<li><i><a href="#synergy">Synergistic effect of hybrid bacteriocins detected by MIC</a></i></li></ul>
+
<li><i><a href="#salve">Salve against MRSA</a></i></li></ul>
 +
<li><i><a href="#medicalequipment">Bacteriocins for medical equipment</a></i></li></ul>
 
<h5> <img src="https://static.igem.org/mediawiki/2016/4/45/T--SDU-Denmark--minisilk.png" width="5%" style="display:inline-block;margin-right:5px;">Spider silk</h5>
 
<h5> <img src="https://static.igem.org/mediawiki/2016/4/45/T--SDU-Denmark--minisilk.png" width="5%" style="display:inline-block;margin-right:5px;">Spider silk</h5>
 
<ul class="list">
 
<ul class="list">
<li><i><a href="#insert">Successfull insertion of the MaSp1 and MaSp2 gene fragments into pSB1C3</a></i></li>
+
<li><i><a href="#skin">Creation of skin cell culture</a></i></li>
<li><i><a href="#ligate">Successful ligation test</a></i></li>
+
<li><i><a href="#gauze">Antimicrobial gauze</a></i></li>
<li><i><a href="#prepare">Proof the concept of preparing silk by the ICA method for one monomer of MaSp1 and MaSp2</a></i></li>
+
<li><i><a href="#softimplants">Soft implants</a></i></li>
<li><i><a href="#dream">Missed ligation of a full construct </a></i></li>
+
<li><i><a href="#textiles">Textiles made from silk</a></i></li>
 
</ul>
 
</ul>
 
<h5> <img src="https://static.igem.org/mediawiki/2016/8/87/T--SDU-Denmark--miniPHB.png" width="5%" style="display:inline-block;margin-right:5px;">PHB</h5>
 
<h5> <img src="https://static.igem.org/mediawiki/2016/8/87/T--SDU-Denmark--miniPHB.png" width="5%" style="display:inline-block;margin-right:5px;">PHB</h5>
 
<ul class="list">
 
<ul class="list">
<li><i><a href="#hybrids">Determination of PHB production efficiency of phaCAB library</a></i></li>
+
<li><i><a href="#implants">Implants and coating for guided bone regeneration</a></i></li>
<li><i><a href="#optimization">Comparisson of PHB extraction methods</a></i></li>
+
<li><i><a href="#coating">Coating of implants in combination with antimicrobial compounds</a></i></li>
<li><i><a href="#characterization">iTRAQ analysis of pantothenate kinase II</a></i></li>
+
<li><i><a href="#intracellular">Intracellular drug delivery</a></i></li>
<li><i><a href="#secretion">The properties of the secretion system </a></i></li>
+
<li><i><a href="#future">Future market for PHB</a></i></li>
  
 
</ul>
 
</ul>
 
</div>
 
</div>
  
 +
<h3>Bacteriocins</h3>
 
<div  id="antibiotics"></div>
 
<div  id="antibiotics"></div>
 
+
<h5>Combination of traditional antibiotics with bacteriocins</h5>
  
 
<div  id="electricfields"></div>
 
<div  id="electricfields"></div>
 
+
<h5>Combination with pulsed electric fields</h5>
  
 
<div  id="probiotics"></div>
 
<div  id="probiotics"></div>
 
+
<h5>Bacteriocins as probiotics</h5>
  
 
<div  id="salve"></div>
 
<div  id="salve"></div>
 
+
<h5>Salve against MRSA</h5>
  
 
<div  id="medicalequipment"></div>
 
<div  id="medicalequipment"></div>
 +
<h5>Bacteriocins for medical equipment</h5>
  
 
+
<h3>Spider Silk</h3>
 
<div  id="skin"></div>
 
<div  id="skin"></div>
 
+
<h5>Creation of skin cell culture</h5>
  
 
<div  id="gauze"></div>
 
<div  id="gauze"></div>
 
+
<h5>Antimicrobial gauze</h5>
  
 
<div  id="softimplants"></div>
 
<div  id="softimplants"></div>
 
+
<h5>Soft implants</h5>
  
 
<div  id="textiles"></div>
 
<div  id="textiles"></div>

Revision as of 20:34, 18 October 2016

Perspectives

Early on the project we realized that there are many interesting applications for our chosen sub elements, and as we got to talk with different experts, we saw even more opportunities. On this page we have highlighted some of the most interesting ideas, to give you a broader perspective of the true potential of each sub element. We have also included some of the ideas the high school students gave us during our workshops. So take a look and be inspired to how Bacto-aid’s sub elements can be integrated in your future.

Bacteriocins

Combination of traditional antibiotics with bacteriocins
Combination with pulsed electric fields
Bacteriocins as probiotics
Salve against MRSA
Bacteriocins for medical equipment

Spider Silk

Creation of skin cell culture
Antimicrobial gauze
Soft implants
Textiles made from silk
Implants and coating for guided bone regeneration
Coating of implants in combination with antimicrobial compounds
Intracellular drug delivery
Future market for PHB

Ideas from high school students