Rates of growth, ribosome synthesis and elongation factor synthesis in a tufA defective strain of E. coli.

A tufA defective strain of E. coli was isolated which by a single deletion event acquired a tufA-lacZ fusion gene and lost the normal functional tufA gene (see accompanying paper). A correlation between the growth rate of protein synthesis was decreased to about 50% in the tufA defective strain whereas the number of EF-Tu molecules per ribosome was about 80% compared to a normal strain. The results indicate that tufB gene expression was preferentially stimulated in the tufA defective strain but the increased EF-TuB synthesis was not sufficient to make up for the loss of normal EF-TuA synthesis. Introduction of a plasmid that carries a complete tufA gene and the preceeding fusA gene but not the str-promotor into the tufA defective strain did not alleviate the slow growth or low rate of EF-Tu synthesis showing that the high rate of EF-TuA synthesis compared to the other proteins in the str operon is not augmented by a strong second promotor for the tufA gene. The tufA-lacZ fusion which takes the place of the normal tufA gene was expressed at a high rate and the beta-galactosidase activity increased with the growth rate as expected.