Team:Tec-Monterrey/antifreeze/project
From 2012.igem.org
Line 381: | Line 381: | ||
</span> | </span> | ||
<div class="preload" id="content1"> | <div class="preload" id="content1"> | ||
- | <p> | + | <p>This project's objective is the development of a new E. coli strain capable of surviving numerous steps of freezing and thawing, due to the expression of antifreeze proteins from the beetlle Rhagium inquisitor (RiAFP). We expect this new strain to be easier to handle in research labs and to increase the overall efficiency of transformed cells.</p> |
- | <p> | + | <p>We plan to modify this strain's chromosomal DNA by Red/ET homologous recombination, and to insert the neccesary sequences for the expression of the RiAFP in the bacteria's cytoplasmic and periplasmic spaces. Furthermore, we will use an experimental design to find out the best storing conditions for this strain during cryopreservation.</p> |
</div> | </div> | ||
<span class="preload" id="content2"> | <span class="preload" id="content2"> | ||
Line 481: | Line 481: | ||
<td> | <td> | ||
<div class="inner" id="replace"> | <div class="inner" id="replace"> | ||
- | <p> | + | <p>This project's objective is the development of a new E. coli strain capable of surviving numerous steps of freezing and thawing, due to the expression of antifreeze proteins from the beetlle Rhagium inquisitor (RiAFP). We expect this new strain to be easier to handle in research labs and to increase the overall efficiency of transformed cells.</p> |
- | <p> | + | <p>We plan to modify this strain's chromosomal DNA by Red/ET homologous recombination, and to insert the neccesary sequences for the expression of the RiAFP in the bacteria's cytoplasmic and periplasmic spaces. Furthermore, we will use an experimental design to find out the best storing conditions for this strain during cryopreservation.</p> |
</div> | </div> | ||
</td> | </td> |
Revision as of 03:14, 7 September 2012
This project's objective is the development of a new E. coli strain capable of surviving numerous steps of freezing and thawing, due to the expression of antifreeze proteins from the beetlle Rhagium inquisitor (RiAFP). We expect this new strain to be easier to handle in research labs and to increase the overall efficiency of transformed cells.
We plan to modify this strain's chromosomal DNA by Red/ET homologous recombination, and to insert the neccesary sequences for the expression of the RiAFP in the bacteria's cytoplasmic and periplasmic spaces. Furthermore, we will use an experimental design to find out the best storing conditions for this strain during cryopreservation.
|
||||
This project's objective is the development of a new E. coli strain capable of surviving numerous steps of freezing and thawing, due to the expression of antifreeze proteins from the beetlle Rhagium inquisitor (RiAFP). We expect this new strain to be easier to handle in research labs and to increase the overall efficiency of transformed cells. We plan to modify this strain's chromosomal DNA by Red/ET homologous recombination, and to insert the neccesary sequences for the expression of the RiAFP in the bacteria's cytoplasmic and periplasmic spaces. Furthermore, we will use an experimental design to find out the best storing conditions for this strain during cryopreservation. |