Gene expression and stability of mRNA affected by DNA-arrested synthesis in gene 59, 46, and 47 mutants of bacteriophage T4.

The effect of bacteriophage T4 gene 59 mutations (DNA-arrested synthesis) on kinetics of DNA synthesis, gene expression, and stability of mRNA has been studied. When Escherichia coli B was infected by a T4 gene 59 mutant, DNA synthesis proceeded to increase linearly after initiation, but started to decrease at 8 min and was completely arrested at 12 min at 37 degrees C. At various incubation temperatures (20 to 42 degrees C), the initial rates and times of arrest of DNA synthesis were different, but the total amount of DNA synthesized was constant. This result supports the hypothesis that function of gene 59 is required for the conversion of 63S DNA molecules to other replicative intermediates (39). The abnormality in protein synthesis caused by gene 59 mutation is manifested by (i) a delayed shutoff in the expression of early proteins (gene 43, 46, 39, 52, 63, 42-45, and some unidentified proteins), (ii) a reduced rate of late gene expression (gene 34, 37, 18, 20, 23, wac, 24, 22, 38, and 19), and (iii) an absence of cleavage of certain late proteins (23, 24, IPIII and 22 to 23(*), 24(*), IPIII(*), and small fragments). It appears that there was no effect on the expression of gene 33, 55, and 32 by a mutation in gene 59. Results obtained from an addition of rifampin at the prereplicative cycle after infection indicated that mRNA from genes 43, rIIA, 46, 39, 52, and 63 are more stable in T4amC5 (gene 59) than in wild-type-infected cells. mRNA remained functional longer in mutant-infected cells, and this may explain the prolonged synthesis of certain early proteins. The gene expression of other DNA arrested mutants-those in genes 46 and 47-showed a pattern of abnormal protein synthesis similar to that found in gene 59 mutant-infected cells, except more late proteins are synthesized. The gene expression in terms of phage DNA structure is discussed.