Complexes of bacteria‐recognizing engineered phage lysin and red‐colored bacteria microparticles as optical bioprobes for simple, rapid, naked‐eye detection of syphilis‐specific antibodies from clinical samples

Hu, Wei; Zhang, Lin; Tan, Ye; Luo, Jian; Xin, Jingping; Zhang, Gen; Xu, Jinyin; Zhang, Yangyang; Xu, Ya; Li, Ke; Zhang, Yan; Mao, Chuanbin

doi:10.1002/viw.20230120

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2024

DOI: 10.1002/viw.20230120

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Complexes of bacteria‐recognizing engineered phage lysin and red‐colored bacteria microparticles as optical bioprobes for simple, rapid, naked‐eye detection of syphilis‐specific antibodies from clinical samples

Wei Hu,

Lin Zhang,

Ye Tan

et al.

Abstract: Serological detection of syphilis‐specific antibodies is the most widely used clinical method for diagnosing syphilis. However, the current methods in clinical practice are too diverse, complicating result interpretation and wasting medical resources. To meet the resultant demand for a simple fast naked‐eye detection method, we employed the bacterial cell‐binding domain (CBD) of bacteriophage lysin to functionalize bio‐microparticles (engineered non‐culturable red‐colored Staphylococcus aureus bacteria), formi… Show more

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Emerging Combination of Hydrogel and Electrochemical Biosensors

Huang,

Zhou,

et al. 2024

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Electrochemical sensors are among the most promising technologies for biomarker research, with outstanding sensitivity, selectivity, and rapid response capabilities that make them important in medical diagnostics and prognosis. Recently, hydrogels have gained attention in the domain of electrochemical biosensors because of their superior biocompatibility, excellent adhesion, and ability to form conformal contact with diverse surfaces. These features provide distinct advantages, particularly in the advancement of wearable biosensors. This review examines the contemporary utilization of hydrogels in electrochemical sensing, explores strategies for optimization and prospective development trajectories, and highlights their distinctive advantages. The objective is to provide an exhaustive overview of the foundational principles of electrochemical sensing systems, analyze the compatibility of hydrogel properties with electrochemical methodologies, and propose potential healthcare applications to further illustrate their applicability. Despite significant advances in the development of hydrogel‐based electrochemical biosensors, challenges persist, such as improving material fatigue resistance, interfacial adhesion, and maintaining balanced water content across various environments. Overall, hydrogels have immense potential in flexible biosensors and provide exciting opportunities. However, resolving the current obstacles will necessitate additional research and development efforts.

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Emerging Combination of Hydrogel and Electrochemical Biosensors

Huang,

Zhou,

et al. 2024

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Complexes of bacteria‐recognizing engineered phage lysin and red‐colored bacteria microparticles as optical bioprobes for simple, rapid, naked‐eye detection of syphilis‐specific antibodies from clinical samples

Cited by 1 publication

References 33 publications

Emerging Combination of Hydrogel and Electrochemical Biosensors

Emerging Combination of Hydrogel and Electrochemical Biosensors

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