Flexibility and lengths of bis-peptide nanostructures by electron spin resonance.

We demonstrate the use of electron spin resonance (ESR) to determine long-range distances and flexibility in water-soluble bis-peptide molecular rods. Bis-peptide oligomers with 4-8 monomer units were synthesized. ESR determined that the end-to-end length of the peptides is linearly proportional to the number of monomers. The linear shape is, therefore, easily interpreted from the data. In addition, the flexibility of the rods was quantified directly from the ESR-determined distance distribution functions. Quantitative information on chain length and flexibility is important to develop the use of these oligomers as rodlike structural elements for applications such as bivalent display of ligands and as elements of future nanoscale devices.