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pubmed:abstractText |
Lisio, Arnold L. (National Institutes of Health, Bethesda, Md.), and Arthur Weissbach. Repression of lambda-associated enzyme synthesis after lambda(vir) superinfection of lysogenic hosts. J. Bacteriol. 90:661-666. 1965.-Phage lambda(vir) is a multiple mutant of lambda which is capable of overcoming the immunity of a host lysogenic for lambda, and initiating normal vegetative replication of the superinfecting phage genome. Superinfection of Escherichia coli K-112 (lambda(22)) with lambda(vir) results in a normal phage yield, lysis time, and H(3)-thymine incorporation compared with infection of the sensitive host, K-112 (S). However, the production of the lambda phage-specific early protein, lambda-exonuclease, after superinfection of E. coli K-112 (lambda(22)) with lambda(vir) is only 25 to 50% of that obtained from corresponding infection of a nonlysogenic host, E. coli K-112 (S). This repression of lambda-exonuclease synthesis is dependent on the C(1) cistron of the prophage and is overcome if the lysogenic host cells are induced prior to superinfection. The data are interpreted as evidence for partial repression of lambda(vir) by the host immunity.
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