Abstract
Expanded genetic code approaches are a powerful means to add new and useful chemistry to proteins at defined residues positions. One such use is the introduction of non-biological reactive chemical handles for site-specific biocompatible orthogonal conjugation of proteins. Due to our currently limited information on the impact of non-canonical amino acids (nAAs) on the protein structure-function relationship, rational protein engineering is a “hit and miss” approach to selecting suitable sites. Furthermore, dogma suggests surface exposed native residues should be the primary focus for introducing new conjugation chemistry. Here we describe a directed evolution approach to introduce and select for in-frame codon replacement to facilitate engineering proteins with nAAs. To demonstrate the approach, the commonly reprogrammed amber stop codon (TAG) was randomly introduced in-frame in two different proteins: the bionanotechnologically important cyt b 562 and therapeutic protein KGF. The target protein is linked at the gene level to sfGFP via a TEV protease site. In absence of a nAA, an in-frame TAG will terminate translation resulting in a non-fluorescent cell phenotype. In the presence of a nAA, TAG will encode for nAA incorporation so instilling a green fluorescence phenotype on E. coli. The presence of endogenously expressed TEV proteases separates in vivo target protein from its fusion to sfGFP if expressed as a soluble fusion product. Using this approach, we incorporated an azide reactive handle and identified residue positions amenable to conjugation with a fluorescence dye via strain-promoted azide-alkyne cycloaddition (SPAAC). Interestingly, best positions for efficient conjugation via SPAAC were residues whose native side chain were buried through analysis of their determined 3D structures and thus may not have been chosen through rational protein engineering. Molecular modeling suggests these buried native residues could become partially exposed on substitution to the azide containing nAA.
Highlights
The advent of expanded genetic code approaches has allowed proteins to be engineered to contain new chemistry not normally present in the natural amino acid repertoire
Reprogramming is implemented using engineered tRNAamino-acyl/tRNA synthase pairs that incorporate a desired non-canonical amino acids (nAAs) in response to the UAG codon during cellular protein synthesis [2]. This approach has recently been further enhanced through the development of new E. coli strains with all native the low usage amber (TAG) stop codons removed from the genome along with it associated ribosomal release factor RF1 [11]
The vector pIFtag housed the superfolder GFP (sfGFP) gene within the cloning site to allow direct gene fusion downstream of the target protein bridged by a TEV protease sequence
Summary
The advent of expanded genetic code approaches has allowed proteins to be engineered to contain new chemistry not normally present in the natural amino acid repertoire (see [1,2,3] for recent reviews). Reprogrammed genetic code systems essentially makes any member of the proteome, whether native or recombinant, accessible through defined and targeted nAA incorporation during cellular protein synthesis. Reprogramming is implemented using engineered tRNAamino-acyl/tRNA synthase pairs that incorporate a desired nAA in response to the UAG codon during cellular protein synthesis [2]. This approach has recently been further enhanced through the development of new E. coli strains with all native TAG stop codons removed from the genome along with it associated ribosomal release factor RF1 [11]
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