Team:Bielefeld-CeBiTec/Results/Biosfety/TransformationProcess
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Revision as of 16:46, 16 October 2014
Biosafety
Transformation process
For the further investigation of the transformation process and to prove if the higher transformation efficiency is corresponding to the temporary storage of D-alanine and due to the lacking inhibition by an appropriate antibiotic the bacterial growth of the E. coli strain DH5α Δalr ΔdadX during incubation in the SOC-Media was analyzed. Therefore small volumes of 40 µl were continuous plated out in a time interval of 15 min. The samples were streaked out in parallel on normal LB-Agar for an antibiotic-free selection and on LB containing 30 mg/L Chloramphenicol for the classical selection via antibiotic.
As demonstrated in Figure 9 the higher Transformation efficiency can be explained by the lacking inhibition of a corresponding antibiotic, because just after the Transformation there are no colonies observable via antibiotic-selection, but on there a positive red colonies on the LB-plate. This might be due to the quick over-inoculation directly after the transformation so that the Chloramphenicol acetyltransferase, which normally prevents the antibacterial effect of Chloramphenicol to bind to the 50S ribosomale subunit, has not been translated and functionally expressed so far, so that the Chloramphenicol stops the bacterial growth. Meanwhile the cell streaked out on normal LB for the antibiotic-free selection have still accumulate some D-alanine from the SOC-Media so that they probably can grow some time without the complementation of the alanine racemase from the plasmid BBa_K1465401. Also a stop of bacterial cell division is possible until the alanine racemase is functionally expressed and the cell can start growing.
Figure 9: Colonie forming during the Transformation by using antibiotic-free selection (black) or antibiotic-selection with Chlormaphenicol (red) for the positive red colonies harboring the plasmid BBa_K1465401. It could be demonstrated that the antibiotic-free selection is more efficient and requires less incubation time.