Degradation of intracellular protein in Salmonella typhimurium peptidase mutants

Abstract

Multiply peptidase-deficient mutant strains of Salmonella typhimurium fail to carry out normal protein degradation during starvation for a carbon source. In these mutants, the extent of protein breakdown during starvation is about fourfold less than in the wild type. The products of protein breakdown in the mutant are mainly small, trichloroacetic acid-soluble peptides, not free amino acids as in the wild type. The carbon-starved mutant strain produces only about one thirtieth as much free amino acid from protein as the wild type. As a result, protein synthesis during starvation is reduced in the mutant compared to the wild type and the mutant strain shows a greatly prolonged lag phase after a nutritional shift-down.