肽
铈
生物传感器
酪氨酸
电化学
化学
组合化学
生物化学
无机化学
电极
物理化学
作者
Sogol Asaei,Geeta Verma,Nicholas Scott Sinclair,Julie Renner
摘要
Abstract The significance of easily detecting rare earth elements (REEs) has increased due to the growing demand for REEs. Addressing this need, we present an innovative electrochemical biosensor, focusing on cerium as a model REE. This biosensor utilizes a modified EF‐hand loop peptide sequence, incorporating cysteine for covalent attachment to a gold working electrode and tyrosine as an electrochemically active amino acid. The sensor was designed such that binding to cerium induces a conformational change in the peptide, affecting tyrosine's proximity to the electrode surface, modulating the current. A calibration curve was generated from cyclic voltammetry current peaks at ~0.55–0.65 V versus a silver pseudo‐reference electrode, with cerium concentrations ranging from 0 to 67 μM in artificial urine. The sensor exhibited a biologically relevant limit of detection of 35 μM and a sensitivity of −0.0024 ± 0.002 (μA μM) −1 . These findings offer insights into designing peptide sequences for electrochemical biosensing.
科研通智能强力驱动
Strongly Powered by AbleSci AI