The use of the immobilization of whole living cells to increase stability of recombinant plasmids in escherichia coli

Immobilization of whole living cells was used as an experimental approach to enhance plasmid stability in cultured recombinant micro-organisms. pTG201 plasmid which is very unstable in continuous cultures with free cells, was found to be extremely stable in continuous cultures with immobilized cells.To elucidate the mechanism by which immobilization increases the plasmid stability, we analyzed the growth of pTG201-containing E. coli W3101 cells within the gel beads. We found that in immobilized continuous culture, plasmid-free segregants were not detected even after 240 generations. This appears to be due to the mechanical properties of the gel-bead system that allow only a limited number of cell divisions (10–16) to occur in each clone of cells before the clone escapes from the gel bead. This number of generations is not sufficient for the plasmid-free cells to appear within the cavities compared to what was observed in a free-system (plasmid-free segregants were detected after a lag period of approximately 25–30 generations). Even when they appear, they cannot overcome the culture. From the data described in this paper we conclude that cells released from the gel beads at any time during continuous culture are cells which are issued from cells grown in the cavities for only 10–16 generations.