Abstract

By forming base-pairing interactions with the 3' end of 16S rRNA, mRNA Shine-Dalgarno (SD) sequences positioned upstream of open reading frames facilitate translation initiation. During the elongation phase of protein synthesis, intragenic SD-like sequences stimulate ribosome frameshifting and may also slow down ribosome movement along mRNA. Here, we show that the length of the spacer between the SD sequence and P-site codon strongly affects the rate of ribosome translocation. Increasing the spacer length beyond 6 nt destabilizes mRNA-tRNA-ribosome interactions and results in a 5- to 10-fold reduction of the translocation rate. These observations suggest that during translation, the spacer between the SD sequence and P-site codon undergoes structural rearrangements, which slow down mRNA translocation and promote mRNA frameshifting.

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