Opto/Catalytic Metal–Organic Framework Adjuvant-Empowered Acidolytic Nanozymes Amplified for Bimodal Glycoprotein Assay

化学 显色的 检出限 糖蛋白 荧光团 荧光 线性范围 组合化学 生物物理学 色谱法 生物化学 量子力学 生物 物理
作者
Yi Yang,Licheng Yu,Liang He,Pengli Bai,Xi-Wen He,Langxing Chen,Yukui Zhang
出处
期刊:Analytical Chemistry [American Chemical Society]
卷期号:97 (25): 13066-13075 被引量:3
标识
DOI:10.1021/acs.analchem.5c00409
摘要

In this work, an adaptive fusion strategy of acidolytic nanozyme-based sandwich immunoreaction and metal-organic framework (MOF) adjuvants was developed for the inspired establishment of an enhanced glycoprotein assay, in which MOFs can function as dual-signal opto/catalytic adjuvants. The specific means toward the glycoprotein recognition pattern were guaranteed by both antigen recognition as well as glycosylated epitope binding through lectin affinity, and the immediate responses were initiated by textural acidolysis of the typical Fe3O4 nanozymes for signal generation. Upon the solid Fe3O4 particles being subjected to acidolytic decomposition, the signal generators can be harvested in an on-demand manner. On one hand, MOF adjuvants can exert adsorption leverage on the resultant acidolytic decomposition of Fe nodes toward fluorogenic MOFs, a process that results in quenching the fluorescence of MOFs. On the other hand, MOFs with affordable scaffold sites can function as catalytic adjuvants to operate cooperatively in the catalytic performance of the acidolytic Fe nodes, signifying their enhanced chromogenic reflection. For added benefits, an individual Fe3O4 particle is composed of abundant precursor Fe nodes, which can be harvested as an amplified means for signal generation. The dual-mode glycoprotein assay can reach a "signal-off" response for fluorescence output in a range of 0.02-2 nM with a detection limit of 4.37 pM and exhibit a "signal-on" chromogenic output in a range from 0.05 to 10 nM with a detection limit of 16.35 pM. Collectively, our proposed glycoprotein assay may provide a new idea in the binary fusion of MOF adjuvant-empowered acidolytic nanozymes harvested for dual-modal assay outputs, which may also have the potential for the rational substitution of other glycosylated binding lectins to broaden its application in versatile glycoprotein analysis.
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