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首页> 外文期刊>Analytical and bioanalytical chemistry >Analysis of hard protein corona composition on selective iron oxide nanoparticles by MALDI-TOF mass spectrometry: identification and amplification of a hidden mastitis biomarker in milk proteome
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Analysis of hard protein corona composition on selective iron oxide nanoparticles by MALDI-TOF mass spectrometry: identification and amplification of a hidden mastitis biomarker in milk proteome

机译:MALDI-TOF质谱中选择性氧化铁纳米粒子硬质蛋白电晕组合物的分析:乳腺蛋白质中隐藏乳腺炎生物标志物的鉴定与扩增

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摘要

Surface active maghemite nanoparticles (SAMNs) are able to recognize and bind selected proteins in complex biological systems, forming a hard protein corona. Upon a 5-min incubation in bovine whey from mastitis-affected cows, a significant enrichment of a single peptide characterized by a molecular weight at 4338?Da originated from the proteolysis of a~(S1)-casein was observed. Notably, among the large number of macromolecules in bovine milk, the detection of this specific peptide can hardly be accomplished by conventional analytical techniques. The selective formation of a stable binding between the peptide and SAMNs is due to the stability gained by adsorption-induced surface restructuration of the nanomaterial. We attributed the surface recognition properties of SAMNs to the chelation of iron(III) sites on their surface by sterically compatible carboxylic groups of the peptide. The specific peptide recognition by SAMNs allows its easy determination by MALDI-TOF mass spectrometry, and a threshold value of its normalized peak intensity was identified by a logistic regression approach and suggested for the rapid diagnosis of the pathology. Thus, the present report proposes the analysis of hard protein corona on nanomaterials as a perspective for developing fast analytical procedures for the diagnosis of mastitis in cows. Moreover, the huge simplification of proteome complexity by exploiting the selectivity derived by the peculiar SAMN surface topography, due to the iron(III) distribution pattern, could be of general interest, leading to competitive applications in food science and in biomedicine, allowing the rapid determination of hidden biomarkers by a cutting edge diagnostic strategy. Graphical abstract The topography of iron(III) sites on surface active maghemite nanoparticles (SAMNs) allows the recognition of sterically compatible carboxylic groups on proteins and peptides in complex biological matrixes. The analysis of hard protein corona on SAMNs led to the d
机译:表面活性磁石纳米粒子(Samns)能够识别并结合复杂的生物系统中的选定蛋白质,形成硬质蛋白质电晕。在受乳腺炎的奶牛中牛奶中5分钟孵育后,观察到在4338Ω·da的分子量下表征的单一肽的显着富集。值得注意的是,在牛奶中的大量大分子中,可以通过常规分析技术几乎可以通过常规分析技术来检测该特异性肽。在肽和Samns之间的稳定结合的选择性形成是由于通过吸附诱导的纳米材料的表面重构获得的稳定性。我们将Samns的表面识别性能归因于通过肽的空间相容的羧基对其表面上的铁(III)位点的螯合。 Samns的特异性肽识别允许通过MALDI-TOF质谱法易于测定,并且通过逻辑回归方法鉴定其归一化峰强度的阈值,并建议对病理学的快速诊断。因此,本报告提出了在纳米材料上进行硬质蛋白电晕的分析,作为开发快速分析程序,以便在奶牛中诊断乳腺炎的快速分析程序。此外,由于铁(III)分布模式,通过利用特殊的SAMN表面形貌来利用诸如案例SAMN表面形貌的选择性的巨大简化,可能是一般的兴趣,导致食品科学和生物医学中的竞争应用,允许快速尖端诊断策略确定隐藏生物标志物。图解摘要表面活性磁石纳米粒子(Samns)上的铁(III)位点(SAMN)的地形允许在复杂的生物基质中识别蛋白质和肽上的空间相容的羧基。 Samns对Samns的硬质蛋白电晕的分析导致D.

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