Evolution of Escherichia coli for growth at high temperatures
The Journal of Biological Chemistry, 2010, doi: 10.1074/jbc.M110.103374, pp. 19029–19034, published on 20.04.2010
The Journal of Biological Chemistry, online article
Evolution depends on the acquisition of genomic mutations that increase cellular fitness. Here, we evolved Escherichia coli MG1655 cells to grow at extreme temperatures. We obtained a maximum growth temperature of 48.5°C, which was not further increased upon continuous cultivation at this temperature for over 600 generations. Despite a permanently induced heat shock response in thermoresistant cells, only exquisitely high GroEL/GroES levels are essential for growth at 48.5°C. They depend on the presence of lysyl-tRNA-synthetase, LysU, because deletion of lysU rendered thermoresistant cells thermosensitive. Our data suggest that GroEL/GroES are especially required for the folding of mutated proteins generated during evolution. GroEL/GroES therefore appear as mediators of evolution of extremely heat-resistant E. coli cells.