CHAPTER 5. An Analytical Approach to Investigate Nanoparticle–Protein Corona Complexes

Paula Raijiwala, A. Pandya, R. Shukla
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Abstract

Nanoparticles possess size-dependent chemical and physical characteristics that enable interesting and correlated approaches for dealing with fundamental biological molecules. Despite the significant development of nanoscience, interactions of nanoscale objects with living systems is less known. When a nanoparticle (NP) encounters a biological fluid, biomolecules spontaneously form adsorption layers around the NP, called a “protein corona” (PC). The corona's composition depends on the time-dependent environmental conditions, which determines the NP's fate within living organisms. The PC consists of two poorly delimited layers, known as the “hard corona” (HC) and “soft corona” (SC), which is affected by the complexity of the environment and the protein–surface equilibrium formed during in vivo blood circulation. This chapter is focused on the investigation of the corona formation of adsorbed proteins around nanoparticles depending on the type of characterization technique. Protein corona–NP complexes are further characterized by integrating information on morphology and also on the structure/composition of the PC. Thus, multi-disciplinary approaches are highlighted in order to obtain much more information about the PC and its properties to fully understand the real impact of the PC on nanoparticles' surface and their various therapeutics applications.
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第五章。研究纳米粒子-蛋白质电晕复合物的分析方法
纳米粒子具有大小依赖的化学和物理特性,使处理基本生物分子的有趣和相关方法成为可能。尽管纳米科学取得了重大发展,但纳米尺度物体与生命系统的相互作用却鲜为人知。当纳米颗粒(NP)遇到生物流体时,生物分子会自发地在纳米颗粒周围形成吸附层,称为“蛋白质冠”(PC)。日冕的组成取决于时间依赖性的环境条件,这决定了NP在生物体内的命运。PC由两个划分不清的层组成,称为“硬电晕”(HC)和“软电晕”(SC),它们受到环境复杂性和体内血液循环过程中形成的蛋白质表面平衡的影响。本章的重点是研究纳米颗粒周围吸附蛋白质的电晕形成,这取决于表征技术的类型。蛋白质冠状蛋白- np复合物通过整合形态信息和PC的结构/组成进一步表征。因此,为了获得更多关于PC及其特性的信息,以充分了解PC对纳米颗粒表面及其各种治疗应用的真正影响,多学科方法被强调。
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CHAPTER 2. Biological Significance of the Nanoparticles Protein Corona CHAPTER 10. The Protein Corona: Applications and Challenges CHAPTER 9. Nanomaterial–Blood Interactions: A Biomedical Perspective CHAPTER 4. NP–Protein Corona Interaction: Characterization Methods and Analysis CHAPTER 3. Factors Affecting a Nanoparticle's Protein Corona Formation
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