0000000000902515

AUTHOR

M H De Smit

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Rapid evolution of translational control mechanisms in RNA genomes

1997

We have introduced 13 base substitutions into the coat protein gene of RNA bacteriophage MS2. The mutations, which are clustered ahead of the overlapping lysis cistron, do not change the amino acid sequence of the coat protein, but they disrupt a local hairpin, which is needed to control translation of the lysis gene. The mutations decreased the phage titer by four orders of magnitude but, upon passaging, the virus accumulated suppressor mutations that raised the fitness to almost wild-type level. Analysis of the pseudorevertants showed that the disruption of the local hairpin, controlling expression of the lysis gene, had apparently been so complete that its restoration by chance mutations…

GeneticsGenomeBase SequenceGenes ViralbiologyMolecular Sequence DataRNAMutagenesis (molecular biology technique)RNA virusbiology.organism_classificationNucleic acid secondary structureEvolution MolecularCapsidCistronMutagenesisStructural BiologyProtein BiosynthesisBacteriophage MS2Protein biosynthesisNucleic Acid ConformationRNA ViralMolecular BiologyGeneLevivirusJournal of Molecular Biology
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