High-throughput light-induced immunoassay with milliwatt-level laser under one-minute optical antibody-coating on nanoparticle-imprinted substrate

Masatoshi Kanoda, Kota Hayashi, Yumiko Takagi, Mamoru Tamura, Shiho Tokonami, Takuya Iida
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Abstract

The efficient detection of protein biomarkers is critical for public health. However, the sensitivity of conventional antigen test kits is relatively low for early diagnosis, and laboratory immunoassays require complex pretreatment processes overnight. If target nanomaterials could be remotely guided to the detection site, simpler and faster methods would be developed. Here, we reveal the mechanism of light-induced immunoassay that anti-spike-protein antibodies for SARS-CoV-2 were coated on our developed nanoparticle-imprinted plasmonic substrate (NPI-PS) over the submillimeter area within one minute and nanoparticles modified with spike proteins can be selectively detected within a few minutes at one or two orders of higher sensitivity via a two-step optical condensation using NPI-PS. NPI-PS exhibits high-performance optical condensation with high photothermal properties even under milliwatt-class nonresonant laser irradiation, enabling a wide range of quantitative measurements. These findings support an innovative strategy to mitigate pandemic threats and various diseases through the high-throughput detection of protein biomarkers.

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用毫瓦级激光在纳米粒子印迹基底上进行一分钟光学抗体包被,实现高通量光诱导免疫测定
有效检测蛋白质生物标志物对公共卫生至关重要。然而,传统抗原检测试剂盒的灵敏度相对较低,无法进行早期诊断,实验室免疫测定也需要复杂的预处理过程。如果能将目标纳米材料远程引导到检测部位,就能开发出更简单、更快速的方法。在这里,我们揭示了光诱导免疫测定的机理,即在一分钟内将抗SARS-CoV-2尖峰蛋白抗体涂布在我们开发的纳米粒子印迹质子基底(NPI-PS)亚毫米区域上,并通过使用NPI-PS的两步光学凝结,在几分钟内选择性地检测修饰有尖峰蛋白的纳米粒子,灵敏度可提高一到两个数量级。即使在毫瓦级非共振激光照射下,NPI-PS 也能表现出高性能的光学凝结和高光热特性,从而实现广泛的定量测量。这些发现支持通过高通量检测蛋白质生物标记物来减轻流行病威胁和各种疾病的创新战略。
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