Diphtheria toxin resistance in chinese hamster cells: Genetic and biochemical characteristics of the mutants affected in protein synthesis

Abstract

Diphtheria toxin (DT) resistant mutants (Dip^r) have been isolated from a number of different Chinese hamster lines. Among mutants affected in protein synthesis (Dip^rII class), two distinct phenotypes have been identified. In one class, the entire elongation factor-2 (EF-2) activity becomes resistant to DT-catalyzed ADP-ribosylation (Dip^rIIa class); these mutants behave recessively upon hybridization with sensitive cells. The second kind of protein synthesis mutants contain nearly normal levels of the ADP-ribosylatable EF-2 activity (Dip^rIIb class). The hybrids formed between Dip^rIIb mutants and sensitive cells show slow growth in the presence of DT indicating a partially dominant character. In cell hybrids the two types of protein synthesis mutants complement each other indicating that mutations in different genes are responsible for them. While the Dip^rIIa class of mutants are presumably affected in the EF-2, the lesion in Dip^rIIb mutants seems to have occurred in a yet unidentified protein synthesis factor. Interesting differences are also observed in the characteristics of mutants that presumably are defective in the entry of toxin into cells (Dip^rI class).