Abstract
Genetically encoding distinct non-canonical amino acids (ncAAs) into proteins synthesized in cells requires mutually orthogonal aminoacyl-tRNA synthetase (aaRS)/tRNA pairs. The pyrrolysyl-tRNA synthetase/PyltRNA pair from Methanosarcina mazei (Mm) has been engineered to incorporate diverse ncAAs and is commonly considered an ideal pair for genetic code expansion. However, finding new aaRS/tRNA pairs that share the advantages of the MmPylRS/MmPyltRNA pair and are orthogonal to both endogenous aaRS/tRNA pairs and the MmPylRS/MmPyltRNA pair has proved challenging. Here we demonstrate that several ΔNPylRS/PyltRNACUA pairs, in which PylRS lacks an N-terminal domain, are active, orthogonal and efficiently incorporate ncAAs in Escherichia coli. We create new PylRS/PyltRNA pairs that are mutually orthogonal to the MmPylRS/MmPyltRNA pair and show that transplanting mutations that reprogram the ncAA specificity of MmPylRS into the new PylRS reprograms its substrate specificity. Finally, we show that distinct PylRS/PyltRNA-derived pairs can function in the same cell, decode distinct codons and incorporate distinct ncAAs.
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