First series of N-alkylamino peptoid homooligomers: solution phase synthesis and conformational investigation

The synthesis and conformational analysis of the first series of peptoid oligomers composed of consecutive N-(alkylamino)glycine units is investigated. We demonstrate that N-(methylamino)glycine homooligomers can be readily synthesized in solution using N-Boc-N-methylhydrazine as a peptoid submonomer and stepwise or segment coupling methodologies. Their structures were analyzed in solution by 1D and 2D NMR, in the solid state by X-ray crystallography (dimer 2), and implicit solvent QM geometry optimizations. N-(Methylamino)peptoids were found to preferentially adopt trans amide bonds with the side chain N-H bonds oriented approximately perpendicular to the amide plane. This orientation is conducive to local backbone stabilization through intra-residue hydrogen bonds but also to intermolecular associations. The high capacity of N-(methylamino)peptoids to establish intermolecular hydrogen bonds was notably deduced from pronounced concentration-dependent N-H chemical shift variation in H-1 NMR and the antiparallel arrangement of mirror image molecules held together via two hydrogen bonds in the crystal lattice of dimer 2.

Automated summary

The synthesis and conformational analysis of peptoid oligomers composed of consecutive N-(alkylamino)glycine units were investigated. N-(Methylamino)glycine homooligomers were successfully synthesized in solution and their structures were analyzed using various techniques. It was found that N-(methylamino)peptoids preferentially adopt trans amide bonds and can form intermolecular associations via hydrogen bonding.