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Sense codon reassignment enables viral resistance and encoded polymer synthesis.

Wesley E RobertsonLouise F H FunkeDaniel de la TorreJulius FredensThomas S ElliottMartin SpinckYonka ChristovaDaniele CervettiniFranz L BögeKim C LiuSalvador BuseSarah L MaslenGeorge P C SalmondJason W Chin
Published in: Science (New York, N.Y.) (2021)
It is widely hypothesized that removing cellular transfer RNAs (tRNAs)-making their cognate codons unreadable-might create a genetic firewall to viral infection and enable sense codon reassignment. However, it has been impossible to test these hypotheses. In this work, following synonymous codon compression and laboratory evolution in Escherichia coli, we deleted the tRNAs and release factor 1, which normally decode two sense codons and a stop codon; the resulting cells could not read the canonical genetic code and were completely resistant to a cocktail of viruses. We reassigned these codons to enable the efficient synthesis of proteins containing three distinct noncanonical amino acids. Notably, we demonstrate the facile reprogramming of our cells for the encoded translation of diverse noncanonical heteropolymers and macrocycles.
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