RHO AND RIBOSOME MUTATION INTERACTION: LETHALITY OF rho-15 IN rpsL or rpsE STRAINS, AND rho-15 METHIONINE AUXOTROPHY IN rps + STRAINS OF ESCHERICHIA COLI

The phenotype of Escherichia coli K-12 carrying rho-15 in the genetic background DW319 ilv lacZ: :IS1 is described. Seventy-eight percent (70/90) of Ilv+ transductants acquired the following phenotype: temperature-sensitive growth on minimal salts medium, Ts+ growth on complex medium and suppression of the lac polar mutation. At 42° on minimal medium, the rho-15 transductants were cross-fed by a substance diffusing from Rho+ transductants or controls. The requirement for this substance was satisfied by methionine or cystathionine, but not by any other single amino acid or combination of amino acids, by spermidine, or by mono- or divalent cationic salts.—Transduction of rho-15 into four other Ilv- recipients revealed two phenotypic patterns. Recipients with rpsL or rpsE ribosomes yielded rho-15 transductants that were Ts on all media, or Ts on minimal medium whether or not methionine was present. The effect of the ribosome on expression of rho15 was confirmed by transduction of appropriate rps alleles into DW319, followed by co-transduction of rho-15 with Ilv+. The growth rate of double rho-15 rpsL or rho-15 rpsE strains was severely reduced at 42° in comparison with strains carrying any of these single mutations. Models for rho and ribosome interaction are presented.