Nanostructures from self-assembling triazine tertiary amine N-oxide amphiphiles.

A new set of amphiphilic tertiary amine N-oxides has been prepared and their self-assembly properties observed in aqueous solution by tensiometry, dynamic and static light scattering. X-ray crystallographic analysis of parent amines and sulfoxide congeners indicates the formation of hydrogen-bonded dimers as the primary assembly unit for formation of vesicles in preference to the compact micelles typical of lauryl dimethylamine N-oxide (LDAO). 6-Benzyloxy-N,N'-bis(5-diethylaminopentylamine oxide)[1,3,5]triazine-2,4-diamine forms a 1 µm vesicle observed to entrap fluorescein. The [1,3,5]triazine core thus allows variation of the new self-assembled structures from nano- to micrometre length scales.

Novel tertiary amine oxide surfaces that resist nonspecific protein adsorption.

Novel surfaces derivatized with tertiary amine oxides have been prepared and tested for their ability to resist nonspecific protein adsorption. The oxidation of tertiary amines supported on triazine units was carried out using mCPBA to give a format allowing conjugation of biologically active ligands alongside them. Adsorption to these surfaces was tested and compared to adsorption to a set of commercial and custom oligo-/poly(ethylene glycol) (OEG/PEG) supports by challenging them with a protein display library presented on bacteriophage lambda. The new class of amine oxide surfaces is found to compare favorably with the performance of the OEG/PEG supports in the prevention of nonspecific binding.