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Nanobody-Induced Aggregation of Gold Nanoparticles: A Mix-and-Read Strategy for the Rapid Detection of <i>Cronobacter sakazakii</i>

Pengyu Chen, Qinkai Yang, Shurong Li, Xuan Liu, Bingzhi Li, Jiahao Zhang, Jianlong Wang, Xiaoyue Yue, Yanru Wang

2024Analytical Chemistry14 citationsDOI

Abstract

Protein-nanoparticle interactions play a crucial role in both biomedical applications and the biosafety assessment of nanomaterials. Here, we found that nanobodies can induce citrate-capped gold nanoparticles (AuNPs) to aggregate into large clusters. Subsequently, we explored the mechanism behind this aggregation and proposed the “gold nucleation mechanism” to explain this phenomenon. Building on this observation, we developed a one-step label-free colorimetric method based on nanobody-induced AuNP aggregation. When nanobodies bind to target bacteria, spatial hindrance occurs, preventing further AuNPs aggregation. This alteration in surface plasmon resonance properties results in visible color changes. As an example, we present a simple and sensitive “mix-and-read” chromogenic immunosensor for Cronobacter sakazakii ( C. sakazakii ). The experiment can be completed within 20 min, with a visual detection limit of 10 3 CFU/mL and a quantitative detection limit of 136 CFU/mL. Importantly, our method exhibits no cross-reactivity with other bacterial species. This strategy harnesses the excellent properties of nanobodies and the optical characteristics of AuNPs for direct and rapid detection of foodborne pathogen.

Topics & Concepts

ChemistryCronobacter sakazakiiColloidal goldNanoparticleNanotechnologyFood scienceInfant formulaMaterials scienceEnterobacteriaceae and Cronobacter ResearchBiosensors and Analytical DetectionListeria monocytogenes in Food Safety
Nanobody-Induced Aggregation of Gold Nanoparticles: A Mix-and-Read Strategy for the Rapid Detection of <i>Cronobacter sakazakii</i> | Litcius