Abstract

The Escherichia coli IF3-L35-L20 operon encodes translation initiation factor IF3 and the ribosomal proteins L35 and L20, respectively. The expression of the genes encoding the two ribosomal proteins is negatively regulated at the translational level by L20, which acts at an operator located within the IF3 gene and just upstream of the L35 gene. We have previously shown that L20 directly represses the expression of the L35 gene, and indirectly that of the L20 gene, via translational coupling. On the basis of mutational analysis and in vitro RNA structure probing experiments, we proposed that a large secondary structure in which the translation initiation site of the L20 gene is sequestered by base-pairing, is responsible for coupling. The ribosome binding site of the L20 gene becomes available when the secondary structure is melted by ribosomes translating the L35 mRNA. Here we describe that this secondary structure forms in vivo by showing that single mutations in either strand reduce coupling and that compensatory mutations that re-establish pairing also re-establish coupling. In vitro ‘toeprinting’ analysis enabled us to show that the wild-type inhibitory secondary structure directly blocks ribosome binding to the ribosome binding site of rplT.

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