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Team:Uppsala University/Catsac
From 2012.igem.org
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| - | <p>In our project we have extensively used recombineering onto the bacterial chromosome. To aid this work, we have built | + | <p>In our project we have extensively used recombineering onto the bacterial chromosome. To aid this work, we have built an improved <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K864150">cat-SacB selection-counterselection cassette</a>, which provides easy and reliable recombineering, and the possibility of scarless gene deletion.</p> |
<a href="http://partsregistry.org/wiki/images/5/56/CatsacB1.jpg"> | <a href="http://partsregistry.org/wiki/images/5/56/CatsacB1.jpg"> | ||
<img src="http://partsregistry.org/wiki/images/5/56/CatsacB1.jpg" width=400></a><br> | <img src="http://partsregistry.org/wiki/images/5/56/CatsacB1.jpg" width=400></a><br> | ||
<i>Cat-SacB strain and wild-type on Cm plate and sucrose plate</i> | <i>Cat-SacB strain and wild-type on Cm plate and sucrose plate</i> | ||
| - | <p> | + | <br><br><p> |
| - | When doing λ-red recombineering, you can make sure that your construct have inserted in the right place by | + | When doing λ-red recombineering, you can make sure that your construct have inserted in the right place by plating on chloramphenicol which selects for all bacteria containing the cassette. Then, do another λ-red with your insert of interest that will replace the cat-sacB cassette and select on a sucrose plate, which will ensure that only the bacteria which has lost the cat-SacB cassette will survive.</p><p> |
| - | To | + | To confirm that the cat-SacB construct works, we streaked MG1655 cells containing the cat-sacB integrated on the chromosome on LA plates with chloramphenicol (12 µg/mL) or sucrose (1 mM) together with a negative control (wild type MG1655) which does not contain the cassette. On the chloramphenicol plates the bacteria carrying the cat-sacB survives, while on the sucrose plate they die.</p> |
</td> | </td> | ||
</tr> | </tr> | ||
Latest revision as of 22:35, 26 October 2012
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In our project we have extensively used recombineering onto the bacterial chromosome. To aid this work, we have built an improved cat-SacB selection-counterselection cassette, which provides easy and reliable recombineering, and the possibility of scarless gene deletion.  Cat-SacB strain and wild-type on Cm plate and sucrose plate When doing λ-red recombineering, you can make sure that your construct have inserted in the right place by plating on chloramphenicol which selects for all bacteria containing the cassette. Then, do another λ-red with your insert of interest that will replace the cat-sacB cassette and select on a sucrose plate, which will ensure that only the bacteria which has lost the cat-SacB cassette will survive. To confirm that the cat-SacB construct works, we streaked MG1655 cells containing the cat-sacB integrated on the chromosome on LA plates with chloramphenicol (12 µg/mL) or sucrose (1 mM) together with a negative control (wild type MG1655) which does not contain the cassette. On the chloramphenicol plates the bacteria carrying the cat-sacB survives, while on the sucrose plate they die. |
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