Background: Prokaryotic translational release factors, RF1 and RF2, catalyse protein release at UAG/UAA and UGA/UAA stop codons, respectively. Mutations in RF1 and RF2 are known to cause non-sense suppression for UAG (amber) and UGA (opal) codons, respectively, and they do not exert a reciprocal ('cross') suppression phenotype. We aimed to isolate RF mutants of such cross-suppression activity, which we designated 'Csu' phenotype in this paper.
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