Current Issues in Molecular Biology (Aug 2023)

Length-Dependent Translation Efficiency of ER-Destined Proteins

  • Hana Sahinbegovic,
  • Alexander Vdovin,
  • Renata Snaurova,
  • Michal Durech,
  • Jakub Nezval,
  • Jiri Sobotka,
  • Roman Hajek,
  • Tomas Jelinek,
  • Michal Simicek

DOI
https://doi.org/10.3390/cimb45080425
Journal volume & issue
Vol. 45, no. 8
pp. 6717 – 6727

Abstract

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Gene expression is a fundamental process that enables cells to produce specific proteins in a timely and spatially dependent manner. In eukaryotic cells, the complex organization of the cell body requires precise control of protein synthesis and localization. Certain mRNAs encode proteins with an N-terminal signal sequences that direct the translation apparatus toward a specific organelle. Here, we focus on the mechanisms governing the translation of mRNAs, which encode proteins with an endoplasmic reticulum (ER) signal in human cells. The binding of a signal-recognition particle (SRP) to the translation machinery halts protein synthesis until the mRNA–ribosome complex reaches the ER membrane. The commonly accepted model suggests that mRNA that encodes a protein that contains an ER signal peptide continuously repeats the cycle of SRP binding followed by association and dissociation with the ER. In contrast to the current view, we show that the long mRNAs remain on the ER while being translated. On the other hand, due to low ribosome occupancy, the short mRNAs continue the cycle, always facing a translation pause. Ultimately, this leads to a significant drop in the translation efficiency of small, ER-targeted proteins. The proposed mechanism advances our understanding of selective protein synthesis in eukaryotic cells and provides new avenues to enhance protein production in biotechnological settings.

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