"
Team:Groningen/Template/MODULE/project/bandage/prototype
From 2014.igem.org
(Difference between revisions)
| Line 15: | Line 15: | ||
<div class="text"> | <div class="text"> | ||
So far we’ve done a lot of experiments with the acrylamid gel. For a proof of principle project this works fine, although we know acrylamide is highly cancerous and would not work for a final product. We mainly wanted to proof this bacteria can survive extreme conditions and encapsulation in a gel. We realize it wouldn't be a perfect material for an end product, but for us it is an easy and quite cheap way of testing. | So far we’ve done a lot of experiments with the acrylamid gel. For a proof of principle project this works fine, although we know acrylamide is highly cancerous and would not work for a final product. We mainly wanted to proof this bacteria can survive extreme conditions and encapsulation in a gel. We realize it wouldn't be a perfect material for an end product, but for us it is an easy and quite cheap way of testing. | ||
| - | There will be a lot of testing, this started with what percentage of acrylamide gave the best flexibility results for us, we started with using 10-15-20-25-30 % acrylamide. Here 30 and 25 were to sturdy and thick, the 20% seems to give the best results for us. It’s the right combination between sturdy and flexible. | + | There will be a lot of testing, this started with what percentage of acrylamide gave the best flexibility results for us, we started with using 10-15-20-25-30 % acrylamide. Here 30% and 25% were to sturdy and thick, the 20% seems to give the best results for us. It’s the right combination between sturdy and flexible. |
| - | After this | + | After this we've tried freeze drying the cells itself and checking whether these survive after they are rehydrated. Until now we’re not that certain about our results. After encapsulation in the gel our cells did show a lot of GFP. Unfortunately we haven’t seen a single cell divide inside the gel which of course is the best proof of a living cell. |
| - | + | Another thing was checking if the cells can't leave the gel, this was checked by putting cells in the gel. These parts of gel were put in a GM17 medium overnight, if i | |
</div> | </div> | ||
Revision as of 23:17, 17 October 2014
Prototype & Testing
So far we’ve done a lot of experiments with the acrylamid gel. For a proof of principle project this works fine, although we know acrylamide is highly cancerous and would not work for a final product. We mainly wanted to proof this bacteria can survive extreme conditions and encapsulation in a gel. We realize it wouldn't be a perfect material for an end product, but for us it is an easy and quite cheap way of testing.
There will be a lot of testing, this started with what percentage of acrylamide gave the best flexibility results for us, we started with using 10-15-20-25-30 % acrylamide. Here 30% and 25% were to sturdy and thick, the 20% seems to give the best results for us. It’s the right combination between sturdy and flexible.
After this we've tried freeze drying the cells itself and checking whether these survive after they are rehydrated. Until now we’re not that certain about our results. After encapsulation in the gel our cells did show a lot of GFP. Unfortunately we haven’t seen a single cell divide inside the gel which of course is the best proof of a living cell.
Another thing was checking if the cells can't leave the gel, this was checked by putting cells in the gel. These parts of gel were put in a GM17 medium overnight, if i
