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A novel approach towards selectable markers was developed in Lawrence Livermore National Laboratory, which employes a toxin/antitoxin combination of genes as a marker. The process, summarized in the figure to the left, effectively avoids the need to grow antibiotic resistant bacterial cultures on an antibiotic plate. An inducible zeta-toxin group of proteins is first introduced into an E. coli strain. A DNA strand of interest containing an zeta-antitoxin group is then transformed into the E. coli, and the entire culture is grown. The zeta-toxin group is then induced, killing off all E. coli that does not contain the antitoxin group. Besides for triggering the zeta-toxin group, no outside influence is required to select for the desired cells<cite>Parsons2011</cite>. | A novel approach towards selectable markers was developed in Lawrence Livermore National Laboratory, which employes a toxin/antitoxin combination of genes as a marker. The process, summarized in the figure to the left, effectively avoids the need to grow antibiotic resistant bacterial cultures on an antibiotic plate. An inducible zeta-toxin group of proteins is first introduced into an E. coli strain. A DNA strand of interest containing an zeta-antitoxin group is then transformed into the E. coli, and the entire culture is grown. The zeta-toxin group is then induced, killing off all E. coli that does not contain the antitoxin group. Besides for triggering the zeta-toxin group, no outside influence is required to select for the desired cells<cite>Parsons2011</cite>. | ||
To read more about toxin/antitoxin systems, [http://openwetware.org/wiki/CH391L/S12/ToxinAntitoxins see this page]. | |||
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