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Kinetic modeling predicts a stimulatory role for ribosome collisions at elongation stall sites in bacteria.


ABSTRACT: Ribosome stalling on mRNAs can decrease protein expression. To decipher ribosome kinetics at stall sites, we induced ribosome stalling at specific codons by starving the bacterium Escherichia coli for the cognate amino acid. We measured protein synthesis rates from a reporter library of over 100 variants that encoded systematic perturbations of translation initiation rate, the number of stall sites, and the distance between stall sites. Our measurements are quantitatively inconsistent with two widely-used kinetic models for stalled ribosomes: ribosome traffic jams that block initiation, and abortive (premature) termination of stalled ribosomes. Rather, our measurements support a model in which collision with a trailing ribosome causes abortive termination of the stalled ribosome. In our computational analysis, ribosome collisions selectively stimulate abortive termination without fine-tuning of kinetic rate parameters at ribosome stall sites. We propose that ribosome collisions serve as a robust timer for translational quality control pathways to recognize stalled ribosomes.

SUBMITTER: Ferrin MA 

PROVIDER: S-EPMC5446239 | biostudies-literature | 2017 May

REPOSITORIES: biostudies-literature

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Kinetic modeling predicts a stimulatory role for ribosome collisions at elongation stall sites in bacteria.

Ferrin Michael A MA   Subramaniam Arvind R AR  

eLife 20170512


Ribosome stalling on mRNAs can decrease protein expression. To decipher ribosome kinetics at stall sites, we induced ribosome stalling at specific codons by starving the bacterium <i>Escherichia coli</i> for the cognate amino acid. We measured protein synthesis rates from a reporter library of over 100 variants that encoded systematic perturbations of translation initiation rate, the number of stall sites, and the distance between stall sites. Our measurements are quantitatively inconsistent wit  ...[more]

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