Metabolic Regulation in Glucose-Limited Chemostat Cultures of Escherichia coli

Abstract

Glucose-limited chemostat cultures of Escherichia coli, growing at dilution rates above 0.3/hr, continue to grow at the restricted rate after removal of glucose restriction. In a glycogenless strain, the specific rates of increase of mass, protein, and ribonucleic acid (RNA) were equal before and after supplementation with 0.05% glucose and did not increase detectably until after 30 to 60 min. The unrestricted specific growth rate was reached after two to three doublings of cell mass. Supplementation with glucose plus 20 amino acids, but not with glucose plus vitamins or ribosides, produced an immediate increase in the specific rates of mass and RNA synthesis followed by an increase in the specific rate of protein synthesis. In a wild-type strain, synthesis of protein and RNA continued at the restricted rate after glucose supplementation, but the specific rate of increase of mass immediately increased due to rapid synthesis of glycogen. At dilution rates less than 0.3/hr, the specific rates of increase of mass, protein, and RNA increased immediately after supplementation with glucose, but did not immediately attain the unrestricted growth. The results at dilution rates greater than 0.3/hr are interpreted to mean that the regulation of a number of enzymatic reactions is entirely through control of enzyme synthesis, without modulation of enzyme function. The levels of such enzymes are controlled so that operation with zero-order kinetics precisely meets the demands for balanced growth. It was shown that glutamic dehydrogenase and glutamic-oxalacetic transaminase are regulated in this manner.