Team:Freiburg/Description

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==Bacterial artificial chromosome==
==Bacterial artificial chromosome==
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Bacterial artificial chromosome, a vector, based on the single copy plasmid F-factor from Escherichia coli, which can host inserts from bacteria or other sources between 150 and 350 kilo base pairs (kbp) but up to 700 kbp, and hold them for more then 100 generations. The BAC vector has some common gene components that are: the oriS and repE which are responsible for the not bidirectional replication. The parA and parB genes which control the copy number of the BAC. In addition to it there is a selection marker commonly an antibiotic resistance and finally the cloning segment with the restrictions sites. This cloning segment will be flanked by a T7 and SP6 promoter. Usually BACs are used to build up libraries or genetically screening, through its stability. <br/>
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Bacterial artificial chromosome, a vector, based on the single copy plasmid F-factor from ''Escherichia coli'', which can host inserts from bacteria or other sources between 150 and 350 kilo base pairs (kbp) but up to 700 kbp, and hold them for more then 100 generations. The BAC vector has some common gene components that are: the oriS and repE which are responsible for the not bidirectional replication. The parA and parB genes which control the copy number of the BAC. In addition to it there is a selection marker commonly an antibiotic resistance and finally the cloning segment with the restrictions sites. This cloning segment will be flanked by a T7 and SP6 promoter. Usually BACs are used to build up libraries or genetically screening, through its stability. <br/>
We want to put most of our parts in a BAC that you will finally need if you use our “Lab in a cell” system. If you see all the different parts in our constructed system you recognize that it is impossible to put them all in one (r?)-plasmid. But most of our parts, if not all of them are needed in every cell which should produce the proteins of interest. So it would be on the one hand a complicated way because you need more then three different plasmids and antibiotic resistance which is difficult and not stable, on the other hand it is an extremely time-consuming task to clone these whole things together.  
We want to put most of our parts in a BAC that you will finally need if you use our “Lab in a cell” system. If you see all the different parts in our constructed system you recognize that it is impossible to put them all in one (r?)-plasmid. But most of our parts, if not all of them are needed in every cell which should produce the proteins of interest. So it would be on the one hand a complicated way because you need more then three different plasmids and antibiotic resistance which is difficult and not stable, on the other hand it is an extremely time-consuming task to clone these whole things together.  
To have a BAC which contains our precipitator, the lysis cassette and the most parts of our light inducible systems should not to be underestimated. It would be an easy, timesaving and stable construct.
To have a BAC which contains our precipitator, the lysis cassette and the most parts of our light inducible systems should not to be underestimated. It would be an easy, timesaving and stable construct.

Revision as of 21:22, 20 September 2011


This is the wiki page
of the Freiburger student
team competing for iGEM 2011.
Thank you for your interest!