Litcius/Paper detail

Analysis of 11,430 recombinant protein production experiments reveals that protein yield is tunable by synonymous codon changes of translation initiation sites

Bikash Kumar Bhandari, Chun Shen Lim, Daniela M. Remus, Augustine Chen, Craig J. van Dolleweerd, Paul P. Gardner

2021PLoS Computational Biology23 citationsDOIOpen Access PDF

Abstract

Recombinant protein production is a key process in generating proteins of interest in the pharmaceutical industry and biomedical research. However, about 50% of recombinant proteins fail to be expressed in a variety of host cells. Here we show that the accessibility of translation initiation sites modelled using the mRNA base-unpairing across the Boltzmann's ensemble significantly outperforms alternative features. This approach accurately predicts the successes or failures of expression experiments, which utilised Escherichia coli cells to express 11,430 recombinant proteins from over 189 diverse species. On this basis, we develop TIsigner that uses simulated annealing to modify up to the first nine codons of mRNAs with synonymous substitutions. We show that accessibility captures the key propensity beyond the target region (initiation sites in this case), as a modest number of synonymous changes is sufficient to tune the recombinant protein expression levels. We build a stochastic simulation model and show that higher accessibility leads to higher protein production and slower cell growth, supporting the idea of protein cost, where cell growth is constrained by protein circuits during overexpression.

Topics & Concepts

Recombinant DNAProtein biosynthesisEscherichia coliBiologyMessenger RNATranslation (biology)Computational biologySynthetic biologyEukaryotic translationCell biologyGeneGeneticsRNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyViral Infectious Diseases and Gene Expression in Insects
Analysis of 11,430 recombinant protein production experiments reveals that protein yield is tunable by synonymous codon changes of translation initiation sites | Litcius