New codons for efficient production of unnatural proteins in a semisynthetic organism.

Abstract

Natural organisms use a four-letter genetic alphabet that makes available 64 triplet codons, of which 61 are sense codons used to encode proteins with the 20 canonical amino acids. We have shown that the unnatural nucleotides dNaM and dTPT3 pair to form an unnatural base pair (UBP) and allow for the creation of semi-synthetic organisms (SSOs) with additional sense codons. Here we report a systematic analysis of the unnatural codons. We identify nine unnatural codons that can produce unnatural protein with nearly complete incorporation of an encoded non-canonical amino acid (ncAA). We also show that at least three of the codons are orthogonal and can be simultaneously decoded in the SSO, affording the first 67-codon organism. The ability to site-specifically incorporate multiple, different ncAAs into a protein should now allow for the development of proteins with novel activities and possibly even SSOs with new forms and functions.