Determination of Polypeptide Conformation with Nanoscale Resolution in Water.
Georg RamerFrancesco Simone RuggeriAviad LevinTuomas P J KnowlesAndrea CentronePublished in: ACS nano (2018)
The folding and acquisition of proteins native structure is central to all biological processes of life. By contrast, protein misfolding can lead to toxic amyloid aggregates formation, linked to the onset of neurodegenerative disorders. To shed light on the molecular basis of protein function and malfunction, it is crucial to access structural information on single protein assemblies and aggregates under native conditions. Yet, current conformation-sensitive spectroscopic methods lack the spatial resolution and sensitivity necessary for characterizing heterogeneous protein aggregates in solution. To overcome this limitation, here we use photothermal-induced resonance to demonstrate that it is possible to acquire nanoscale infrared spectra in water with high signal-to-noise ratio (SNR). Using this approach, we probe supramolecular aggregates of diphenylalanine, the core recognition module of the Alzheimer's β-amyloid peptide, and its derivative Boc-diphenylalanine. We achieve nanoscale resolved IR spectra and maps in air and water with comparable SNR and lateral resolution, thus enabling accurate identification of the chemical and structural state of morphologically similar networks at the single aggregate ( i. e., fibril) level.
Keyphrases
- single molecule
- protein protein
- atomic force microscopy
- molecular dynamics simulations
- magnetic resonance
- photodynamic therapy
- healthcare
- magnetic resonance imaging
- drug delivery
- cognitive decline
- molecular docking
- high glucose
- minimally invasive
- computed tomography
- air pollution
- density functional theory
- oxidative stress
- endothelial cells
- cancer therapy
- small molecule
- molecularly imprinted