A protein-nanoparticle conjugate platform for simplified and sensitive protease activity assays.

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analytical Methods Pub Date : 2025-07-22 DOI:10.1039/d5ay01006c

Masafumi Sakono, Kazuki Higashi, Mitsuki Nakamura, Naomi Sakono

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Abstract

Gold nanoparticles (AuNPs) have attracted increasing attention as functional platforms for biosensing due to their high biocompatibility and tunable surface properties. In this study, we developed a protease activity assay using NanoLuc luciferase (NLuc) as a luminescent reporter, genetically fused to a gold-binding peptide (AuBP1) and a TEV protease (TEVp) recognition sequence. The fusion proteins were immobilized onto AuNPs via the gold-binding peptide. Upon TEVp treatment, NLuc was cleaved and released from the AuNP surface, resulting in a measurable increase in luminescence intensity. Two measurement strategies were evaluated: one involving centrifugation-based separation after cleavage, and another without separation. The separation method showed a broader dynamic range and higher sensitivity, while the non-separation method enabled a simplified workflow with sufficient luminescence response. The results demonstrate the feasibility of combining recombinant protein technology with AuNPs to construct functional biosensors for protease assays. This approach may offer a practical and adaptable tool for further development in bioanalytical applications.

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蛋白质-纳米粒子偶联平台，用于简化和敏感的蛋白酶活性测定。

金纳米颗粒（AuNPs）由于其高生物相容性和可调的表面特性，作为生物传感的功能平台而受到越来越多的关注。在这项研究中，我们开发了一种蛋白酶活性测定方法，使用NanoLuc荧光素酶（NLuc）作为发光报告基因，与金结合肽（AuBP1）和TEV蛋白酶（TEVp）识别序列融合。融合蛋白通过金结合肽固定在AuNPs上。经TEVp处理后，NLuc被裂解并从AuNP表面释放，导致发光强度显著增加。评估了两种测量策略：一种是在解理后进行离心分离，另一种是不进行分离。分离方法具有更宽的动态范围和更高的灵敏度，而非分离方法简化了工作流程并具有足够的发光响应。结果表明，将重组蛋白技术与AuNPs结合构建蛋白酶检测的功能性生物传感器是可行的。该方法可为生物分析应用的进一步发展提供实用和适应性强的工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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