Journal
JOURNAL OF MOLECULAR BIOLOGY
Volume 295, Issue 2, Pages 149-154Publisher
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1006/jmbi.1999.3373
Keywords
bacteriophage Q beta; replicase; template recognition; Hfq protein; adaptive mutations
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We have recently shown that Escherichia coli cells deficient in Hfq protein (i.e. the Q beta host factor) support bacteriophage Q beta replication inefficiently, but that the phage evolves rapidly in the mutant host to become essentially host factor independent. An identical set of four point mutations was identified as being responsible for the adapted phenotype in each of three independent adaptation experiments. Here we report the effects of the single mutations and of some of their combinations on host factor dependence of phage multiplication in vivo and of phage RNA replication by Q beta replicase in vitro. We find that each single substitution produces only small effects, but that in combination the four mutations synergistically account for most of the observed adaptation of the evolved phages. Surprisingly, a reanalysis of the 3'-terminal sequence of the adapted phages resulted in the discovery of a fifth mutation in all three independently evolved phage populations, namely, a C to U residue transition at nucleotide 4214. This mutation had been missed previously because of its location only three nucleotides from the 3'-end. It appears to contribute little to the Hfq independence but may enhance RNA stability by re-establishing the possibility of forming a long-range base-pairing interaction involving the immediate 3'-terminal sequence. (C) 2000 Academic Press.
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