化学
生物物理学
蛋白质折叠
未折叠蛋白反应
半胱氨酸
纳米技术
折叠(DSP实现)
离子键合
荧光
生物化学
材料科学
生物
内质网
离子
物理
有机化学
量子力学
电气工程
酶
工程类
作者
Yujuan Qiao,Jingjing Hu,Yuxin Hu,Chong Duan,Wenlian Jiang,Qun Ma,Yuning Hong,Wei Hua Huang,Fan Xia,Xiaoding Lou
标识
DOI:10.1002/anie.202309671
摘要
Nanochannel technology has emerged as a powerful tool for label-free and highly sensitive detection of protein folding/unfolding status. However, utilizing the inner walls of a nanochannel array may cause multiple events even for proteins with the same conformation, posing challenges for accurate identification. Herein, we present a platform to detect unfolded proteins through electrical and optical signals using nanochannel arrays with outer-surface probes. The detection principle relies on the specific binding between the maleimide groups in outer-surface probes and the protein cysteine thiols that induce changes in the ionic current and fluorescence intensity responses of the nanochannel array. By taking advantage of this mechanism, the platform has the ability to differentiate folded and unfolded state of proteins based on the exposure of a single cysteine thiol group. The integration of these two signals enhances the reliability and sensitivity of the identification of unfolded protein states and enables the distinction between normal cells and Huntington's disease mutant cells. This study provides an effective approach for the precise analysis of proteins with distinct conformations and holds promise for facilitating the diagnoses of protein conformation-related diseases.
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