期刊
ACS SENSORS
卷 8, 期 10, 页码 3914-3922出版社
AMER CHEMICAL SOC
DOI: 10.1021/acssensors.3c01488
关键词
cannabinoids; plant hormone sensors; proteinreceptors; superparamagnetic nanorods; zwitterionicpolymer; ELISA-like assay
The development of a novel sensing platform using magnetic nanorods coated with zwitterionic polymers enables simple, rapid, and sensitive detection of cannabinoids in biofluids. The technique utilizes engineered derivatives as drug recognition elements and employs the chemical-induced dimerization mechanism for signal development. The magnetic nanorods facilitate efficient target capture and the zwitterionic polymer coating exhibits excellent antifouling capability, resulting in excellent sensor performance in complex biofluids.
The misuse of cannabinoids and their synthetic variants poses significant threats to public health, necessitating the development of advanced techniques for detection of these compounds in biological or environmental samples. Existing methods face challenges like lengthy sample pretreatment and laborious antifouling steps. Herein, we present a novel sensing platform using magnetic nanorods coated with zwitterionic polymers for the simple, rapid, and sensitive detection of cannabinoids in biofluids. Our technique utilizes the engineered derivatives of the plant hormone receptor Pyrabactin Resistance 1 (PYR1) as drug recognition elements and employs the chemical-induced dimerization (CID) mechanism for signal development. Additionally, the magnetic nanorods facilitate efficient target capture and reduce the assay duration. Moreover, the zwitterionic polymer coating exhibits excellent antifouling capability, preserving excellent sensor performance in complex biofluids. Our sensors detect cannabinoids in undiluted biofluids like serum, saliva, and urine with a low limit of detection (0.002 pM in saliva and few pM in urine and serum) and dynamic ranges spanning up to 9 orders of magnitude. Moreover, the PYR1 derivatives demonstrate high specificity even in the presence of multiple interfering compounds. This work opens new opportunities for sensor development, showcasing the excellent performance of antifouling magnetic nanorods that can be compatible with different recognition units, including receptors and antibodies, for detecting a variety of targets.
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