A saccharides regulated fluorescence ratio sensing array for bacterial recognition based on lectin response.

IF 5.6 1区化学 Q1 CHEMISTRY, ANALYTICAL Talanta Pub Date : 2025-04-01 Epub Date: 2024-12-17 DOI:10.1016/j.talanta.2024.127419

Chunlan Liu, Haijing Zhang, Panpan Chen, Min Wang, Zhining Xia

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Abstract

Array sensing employs cross-identification among analytes and various sensing units to identify substances or complex systems. This manuscript presents a fluorescence ratio sensing array based on lectin responses for the accurate identification of different bacteria. This strategy uses a saccharide-sensitive polymer as the sensing unit within the sensor. By incorporating various saccharides, it regulates the properties of the single sensing unit at the molecular level, altering its interaction with the analyte. This modulation leads to the generation of multiple distinct detection signals for the target, effectively facilitating the goal of array sensing. This approach streamlines the design and construction of the array sensor, while simultaneously enhancing detection efficiency. Not only does this sensing strategy achieve the differentiation and quantification of various types of lectins, but it also enables the identification of different bacterial species based on their unique lectin response profiles. This research introduces a novel approach that simplifies the construction of array sensors and simultaneously furnishes a potent tool for diagnosing and assessing bacterial infections within clinical settings.

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一种基于凝集素响应的糖调节荧光比传感阵列用于细菌识别。

阵列传感利用分析物和各种传感单元之间的交叉识别来识别物质或复杂系统。本文提出了一种基于凝集素响应的荧光比例传感阵列，用于准确识别不同的细菌。该策略使用糖敏感聚合物作为传感器内的传感单元。通过掺入各种糖类，它在分子水平上调节单个传感单元的性质，改变其与分析物的相互作用。这种调制导致对目标产生多个不同的检测信号，有效地促进了阵列传感的目标。这种方法简化了阵列传感器的设计和构造，同时提高了探测效率。这种传感策略不仅实现了各种类型凝集素的区分和定量，而且还可以根据其独特的凝集素响应谱来鉴定不同的细菌物种。本研究介绍了一种新的方法，简化了阵列传感器的构建，同时为临床环境中诊断和评估细菌感染提供了一种有效的工具。

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来源期刊

Talanta 化学-分析化学

CiteScore

12.30

自引率

4.90%

发文量

861

审稿时长

29 days

期刊介绍： Talanta provides a forum for the publication of original research papers, short communications, and critical reviews in all branches of pure and applied analytical chemistry. Papers are evaluated based on established guidelines, including the fundamental nature of the study, scientific novelty, substantial improvement or advantage over existing technology or methods, and demonstrated analytical applicability. Original research papers on fundamental studies, and on novel sensor and instrumentation developments, are encouraged. Novel or improved applications in areas such as clinical and biological chemistry, environmental analysis, geochemistry, materials science and engineering, and analytical platforms for omics development are welcome. Analytical performance of methods should be determined, including interference and matrix effects, and methods should be validated by comparison with a standard method, or analysis of a certified reference material. Simple spiking recoveries may not be sufficient. The developed method should especially comprise information on selectivity, sensitivity, detection limits, accuracy, and reliability. However, applying official validation or robustness studies to a routine method or technique does not necessarily constitute novelty. Proper statistical treatment of the data should be provided. Relevant literature should be cited, including related publications by the authors, and authors should discuss how their proposed methodology compares with previously reported methods.