Without enzymes, biological cells cannot function. Enzymes catalyze countless chemical reactions that would otherwise run too slowly or not at all. Thus, enzymes are essential molecular tools of cells to produce their building blocks, but also to regulate their processes.
Biological cells contain hundreds of different enzyme and substrate types. For molecular biology and for many areas of medicine, it is important to understand how their concentrations affect cellular functions. Such knowledge also helps biotechnologists to develop more efficient biological factories based on enzymes.
Until now, scientists assumed that no general relationship exists between the individual concentrations. A team of researchers of the HHU Institute for Computational Cell Biology and the Department of Physics of the University of California, San Diego (UCSD), has now derived such a relationship, based on the consideration of processes with optimal cellular efficiency.
The researchers conclude that the intracellular mass of a substrate should be equal to the mass of the free enzymes that are waiting to convert it into products. This relationship was confirmed with experimental data for the bacterium E. coli.
Prof. Lercher said about their results: „It is amazing that such a simple relationship seems to govern the concentrations in living cells. I wouldn’t be surprised if this important result will eventually find its way into textbooks for biochemistry and cellular physiology.”
Hugo Dourado, Matteo Mori, Terence Hwa, Martin J. Lercher, On the optimality of the enzyme–substrate relationship in bacteria, PLOS Biology (2021).