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J Bacteriol. 1972 January; 109(1): 307-314
Copyright © 1972 American Society for Microbiology. All Rights Reserved.

Unusual Valyl-Transfer Ribonucleic Acid Synthetase Mutant of Escherichia coli¹

^a Department of Biological Sciences, Purdue University, Lafayette, Indiana 47907

ABSTRACT

Escherichia coli strain NP2907 was isolated as a spontaneous mutant of strain NP29, which possesses a thermolabile valyl-transfer ribonucleic acid (tRNA) synthetase. The valyl-tRNA synthetase of the new mutant, unlike that of its immediate parent, retains enzymatic activity in vitro but differs from the wild-type enzyme in stability and apparent K_m for adenosine triphosphate. The new mutant locus, valS-102, cotransduces with pyrB at the same frequency as does the parental locus, valS-1. Cultures of strain NP29 cease growth immediately in any medium when shifted from 30 to 40 C. The new mutant grows normally at 30 C, and upon a shift to 40 C growth quickly accelerates exactly as for normal cells. Exponential growth, however, cannot be sustained at 40 C. At a point characteristic for each medium, growth becomes linear with time. This transition occurs almost immediately in rich media and after 1.5 generations in glucose minimal medium. Net synthesis of valyl-tRNA synthetase ceases in the new mutant as soon as the temperature is raised to 40 C, irrespective of the growth medium. We conclude that it is the amount of valyl-tRNA synthetase activity that limits the rate of growth in the linear phase at 40 C. This property of the mutant makes it possible to evaluate the in vivo efficiency of this enzyme at different growth rates and thereby to determine the concentration that is necessary for a given rate of protein synthesis. The results of our measurements indicate that cells of E. coli growing in minimal medium normally possess a functional excess of valyl-tRNA synthetase with respect to protein synthesis and to repression of threonine deaminase.

² Present address: Department of Biological Sciences, Dartmouth College, Hanover, N. H. 03755.

³ Present address: Department of Microbiology, The University of Michigan, Ann Arbor, Mich. 48104.

¹ The studies reported here are taken from a thesis submitted by James J. Anderson to Purdue University in partial fulfillment of the requirements for the Ph.D. degree. A preliminary report of some of these findings has appeared (17).

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