Giant Carbon Nano-Test Tubes as Versatile Imaging Vessels for High-Resolution and In Situ Observation of Proteins.
Tracy T ChuongToshihiko OguraNorihito HiyoshiKazuma TakahashiSangho LeeKeita HiragaHiroki IwaseAkira YamaguchiKiyoto KamagataEriko ManoSatoshi HamakawaHirotomo NishiharaTakashi KyotaniGalen D StuckyTetsuji ItohPublished in: ACS applied materials & interfaces (2022)
Cryogenic electron microscopy is one of the fastest and most robust methods for capturing high-resolution images of proteins, but stringent sample preparation, imaging conditions, and in situ radiation damage inflicted during data acquisition directly affect the resolution and ability to capture dynamic details, thereby limiting its broader utilization and adoption for protein studies. We addressed these drawbacks by introducing synthesized giant carbon nano-test tubes (GCNTTs) as radiation-insulating materials that lessen the irradiation impact on the protein during data acquisition, physical molecular concentrators that localize the proteins within a nanoscale field of view, and vessels that create a microenvironment for solution-phase imaging. High-resolution electron microscopy images of single and aggregated hemoglobin molecules within GCNTTs in both solid and solution states were acquired. Subsequent scanning transmission electron microscopy, small-angle neutron scattering, and fluorescence studies demonstrated that the GCNTT vessel protected the hemoglobin molecules from electron irradiation-, light-, or heat-induced denaturation. To demonstrate the robustness of GCNTT as an imaging platform that could potentially augment the study of proteins, we demonstrated the robustness of the GCNTT technique to image an alternative protein, d-fructose dehydrogenase, after cyclic voltammetry experiments to review encapsulation and binding insights. Given the simplicity of the material synthesis, sample preparation, and imaging technique, GCNTT is a promising imaging companion for high-resolution, single, and dynamic protein studies under electron microscopy.
Keyphrases
- high resolution
- electron microscopy
- mass spectrometry
- deep learning
- tandem mass spectrometry
- high speed
- electronic health record
- artificial intelligence
- amino acid
- optical coherence tomography
- convolutional neural network
- oxidative stress
- case control
- single cell
- rare case
- fluorescence imaging
- simultaneous determination