Reliable semi-synthesis of hydrolysis-resistant 3′-peptidyl-tRNA conjugates containing genuine tRNA modifications

Abstract

The 3'-peptidyl-tRNA conjugates that possess a hydrolysis-resistant ribose-3'-amide linkage instead of the natural ester linkage would represent valuable substrates for ribosomal studies. Up to date, access to these derivatives is severely limited. Here, we present a novel approach for the reliable synthesis of non-hydrolyzable 3'-peptidyl-tRNAs that contain all the respective genuine nucleoside modifications. In short, the approach is based on tRNAs from natural sources that are site-specifically cleaved within the TΨC loop by using DNA enzymes to obtain defined tRNA 5'-fragments carrying the modifications. After dephosphorylation of the 2',3'-cyclophosphate moieties from these fragments, they are ligated to the respective 3'-peptidylamino-tRNA termini that were prepared following the lines of a recently reported solid-phase synthesis. By this novel concept, non-hydrolyzable 3'-peptidyl-tRNA conjugates possessing all natural nucleoside modifications are accessible in highly efficient manner.

DOI: 10.1093/nar/gkq508

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@inproceedings{Graber2010ReliableSO, title={Reliable semi-synthesis of hydrolysis-resistant 3′-peptidyl-tRNA conjugates containing genuine tRNA modifications}, author={Dagmar Graber and Holger Moroder and Jessica Steger and Krista Trappl and Norbert Polacek and Ronald Micura}, booktitle={Nucleic acids research}, year={2010} }