Artificial Division of Codon Boxes for Expansion of the Amino Acid Repertoire of Ribosomal Polypeptide Synthesis.

In ribosomal polypeptide synthesis, the 61 sense codons redundantly code for the 20 proteinogenic amino acids. The genetic code contains eight family codon boxes consisting of synonymous codons that redundantly code for the same amino acid. Here, we describe the protocol of a recently published method to artificially divide such family codon boxes and encode multiple nonproteinogenic amino acids in addition to the 20 proteinogenic ones in a reprogrammed genetic code. To achieve this, an in vitro translation system reconstituted with 32 in vitro transcribed tRNA's (S = C or G; N = U, C, A or G) was first developed, where the 32 tRNA transcripts can be charged with 20 proteinogenic amino acids by aminoacyl-tRNA synthetases in situ and orthogonally decode the corresponding 31 NNS sense codons as well as the AUG initiation codon. When some redundant tRNA's are replaced with tRNA's precharged with nonproteinogenic amino acids by means of flexizymes, the nonproteinogenic and proteinogenic aminoacyl-tRNAs can decode the NNC and NNG codons in the same family codon box independently. In this protocol, we describe expression of model peptides, including a macrocyclic peptide containing three kinds of N-methyl-amino acids reassigned to the vacant codons generated by the method of artificial division of codon boxes.