Total Syntheses of a Conformationally Locked North-Type Methanocarba Puromycin Analogue and a Dinucleotide Derivative

Abstract

Locked in translation: Crucial insight into the ribosomal catalysis of peptide‐bond formation is expected to be gained from the target compounds, which feature conformational locking in a __North‐__type pucker, designed to interfere with the translation of the genetic code. The compounds were prepared from D‐ribose in 18 and 19 steps by a multi‐step synthetic route described here (see scheme).magnified image

An original synthetic approach for the first synthesis of an enantiopure methanocarba puromycin (3′‐α‐aminoacylamino‐3′‐deoxyadenosine) analogue and its cytidine dinucleotide derivative is described. Each compound is conformationally locked in a __North‐__type pucker and exhibits both a pseudoaxial hydroxy group and a pseudoequatorial aminoacyl group. The syntheses were accomplished from D‐ribose in 18 and 19 steps, respectively, with key steps being a ring‐closing metathesis, a Luche reduction, a Simmons–Smith cyclopropanation, a Mitsunobu coupling, a Mattocks bromoacetylation, a regioselective and a stereoselective nucleophilic substitution, a chemoselective phosphoramidite coupling and a Staudinger–Vilarrasa coupling. Both molecules are being tested for peptidyl transfer efficiency in ribosomes for comparison with the peptidyl transfer kinetics of natural puromycin and other natural and synthetic ribosomal A site substrates.