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Expanding the Scope of Orthogonal Translation with Pyrrolysyl-tRNA Synthetases Dedicated to Aromatic Amino Acids

Hsueh-Wei Tseng, Tobias Baumann, Huan Sun, Yane‐Shih Wang, Zoya Ignatova, Nediljko Budiša

2020Molecules22 citationsDOIOpen Access PDF

Abstract

In protein engineering and synthetic biology, Methanosarcina mazei pyrrolysyl-tRNA synthetase (MmPylRS), with its cognate tRNAPyl, is one of the most popular tools for site-specific incorporation of non-canonical amino acids (ncAAs). Numerous orthogonal pairs based on engineered MmPylRS variants have been developed during the last decade, enabling a substantial genetic code expansion, mainly with aliphatic pyrrolysine analogs. However, comparatively less progress has been made to expand the substrate range of MmPylRS towards aromatic amino acid residues. Therefore, we set to further expand the substrate scope of orthogonal translation by a semi-rational approach; redesigning the MmPylRS efficiency. Based on the randomization of residues from the binding pocket and tRNA binding domain, we identify three positions (V401, W417 and S193) crucial for ncAA specificity and enzyme activity. Their systematic mutagenesis enabled us to generate MmPylRS variants dedicated to tryptophan (such as β-(1-Azulenyl)-l-alanine or 1-methyl-l-tryptophan) and tyrosine (mainly halogenated) analogs. Moreover, our strategy also significantly improves the orthogonal translation efficiency with the previously activated analog 3-benzothienyl-l-alanine. Our study revealed the engineering of both first shell and distant residues to modify substrate specificity as an important strategy to further expand our ability to discover and recruit new ncAAs for orthogonal translation

Topics & Concepts

Translation (biology)Transfer RNAScope (computer science)Amino acidChemistryAminoacyl tRNA synthetaseBiochemistryAmino Acyl-tRNA SynthetasesStereochemistryComputational biologyCombinatorial chemistryBiologyComputer scienceRNAGeneMessenger RNAProgramming languageRNA and protein synthesis mechanismsRNA modifications and cancerGenomics and Phylogenetic Studies
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