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J Virol. 1978 February; 25(2): 479-485
Copyright © 1978 American Society for Microbiology. All Rights Reserved.

Inhibitory Effect of Fatty Acids on the Entry of the Lipid-Containing Bacteriophage PR4 into Escherichia coli

¹ Biophysics Laboratories, Molecular Biology Program and Department of Physics, Lehigh University, Bethlehem, Pennsylvania 18015

ABSTRACT

Various unsaturated fatty acids (notably palmitoleic acid and oleic acid) interfered with plaque production by the lipid-containing bacteriophage PR4 on lawns of Escherichia coli. Addition of fatty acid to give 50 µg/ml (0.2 mM) at the time of infection prevented phage replication. If, however, the fatty acid was added after infection, normal amounts of phage were produced. If the fatty acid was added (to 50 µg/ml) to the host cell culture a long enough time before infection such that the fatty acid concentration in the growth medium at the time of infection was reduced to 5 µg/ml (due to fatty acid incorporation by the host cells), normal phage replication occurred also. Neither palmitoleic acid nor oleic acid prevented PR4 attachment to E. coli. Several types of experiments indicated that it is the entry process of the virus that is inhibited by these fatty acids. Specifically, if the fatty acid was added at the time of infection, the host cells were not killed by the virus and no detectable amounts of viral protein were synthesized. In addition, experiments using purified radioisotope-labeled virions showed directly that entry is inhibited. Mutants of PR4 that did replicate in the presence of oleic acid arose spontaneously at a frequency of 10^–6. Three of these mutants that have been further characterized have protein and phospholipid compositions indistinguishable from those of wild-type PR4.