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Structural characterization of amyloid aggregates with spatially resolved infrared spectroscopy

表征(材料科学) 光热治疗 显微镜 纳米技术 纳米尺度 光谱学 分辨率(逻辑) 淀粉样纤维 淀粉样蛋白(真菌学) 材料科学 化学 生物系统 光学 计算机科学 淀粉样β 物理 生物 人工智能 无机化学 病理 疾病 医学 量子力学
作者
Divya Baghel,Ana Pacheco de Oliveira,Saumya Satyarthy,William E. Chase,Siddhartha Banerjee,Ayanjeet Ghosh
出处
期刊:Methods in Enzymology [Academic Press]
标识
DOI:10.1016/bs.mie.2024.02.013
摘要

The self-assembly of proteins and peptides into ordered structures called amyloid fibrils is a hallmark of numerous diseases, impacting the brain, heart, and other organs. The structure of amyloid aggregates is central to their function and thus has been extensively studied. However, the structural heterogeneities between aggregates as they evolve throughout the aggregation pathway are still not well understood. Conventional biophysical spectroscopic methods are bulk techniques and only report on the average structural parameters. Understanding the structure of individual aggregate species in a heterogeneous ensemble necessitates spatial resolution on the length scale of the aggregates. Recent technological advances have led to augmentation of infrared (IR) spectroscopy with imaging modalities, wherein the photothermal response of the sample upon vibrational excitation is leveraged to provide spatial resolution beyond the diffraction limit. These combined approaches are ideally suited to map out the structural heterogeneity of amyloid ensembles. AFM-IR, which integrates IR spectroscopy with atomic force microscopy enables identification of the structural facets the oligomers and fibrils at individual aggregate level with nanoscale resolution. These capabilities can be extended to chemical mapping in diseased tissue specimens with submicron resolution using optical photothermal microscopy, which combines IR spectroscopy with optical imaging. This book chapter provides the basic premise of these novel techniques and provides the typical methodology for using these approaches for amyloid structure determination. Detailed procedures pertaining to sample preparation and data acquisition and analysis are discussed and the aggregation of the amyloid β peptide is provided as a case study to provide the reader the experimental parameters necessary to use these techniques to complement their research efforts.

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