纳米颗粒蛋白冠的分离与分析。

IF 8.4 Chem & Bio Engineering Pub Date : 2024-10-03 eCollection Date: 2024-10-24 DOI:10.1021/cbe.4c00105
Yinuo Sun, Yaxin Zhou, Mubashar Rehman, Yi-Feng Wang, Shutao Guo
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引用次数: 0

摘要

纳米颗粒进入生物系统或流体不可避免地吸附生物分子,如蛋白质,在其表面,形成蛋白质冠。因此,蛋白质冠赋予了纳米粒子新的生物学特性,并影响了纳米粒子与生物系统的相互作用。因此,开发可靠的蛋白质冠分离和分析技术是了解纳米颗粒生物学行为的关键。首先,本文系统地概述了分离蛋白冠的方法,包括离心分离法、磁分离法、粒径排除色谱法、流场-流分馏法和其他新兴方法。其次,综述了蛋白质冠的定性和定量表征方法。最后,我们强调了提高纳米颗粒表面蛋白冠分离和表征的效率和保真度的必要步骤。我们预计,这些对蛋白质冠分离和表征方法的见解将深刻影响旨在阐明生物纳米相互作用和蛋白质冠在各种生物医学应用中的作用的技术的发展。
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Protein Corona of Nanoparticles: Isolation and Analysis.

Nanoparticles entering biological systems or fluids inevitably adsorb biomolecules, such as protein, on their surfaces, forming a protein corona. Ensuing, the protein corona endows nanoparticles with a new biological identity and impacts the interaction between the nanoparticles and biological systems. Hence, the development of reliable techniques for protein corona isolation and analysis is key for understanding the biological behaviors of nanoparticles. First, this review systematically outlines the approach for isolating the protein corona, including centrifugation, magnetic separation, size exclusion chromatography, flow-field-flow fractionation, and other emerging methods. Next, we review the qualitative and quantitative characterization methods of the protein corona. Finally, we underscore the necessary steps to advance the efficiency and fidelity of protein corona isolation and characterization on nanoparticle surfaces. We anticipate that these insights into protein corona isolation and characterization methodologies will profoundly influence the development of technologies aimed at elucidating bionano interactions and the role of protein corona in various biomedical applications.

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