Rare-Earth Eu<sup>3+</sup>/Gold Nanocluster Ensemble-Based Fluorescent Photoinduced Electron Transfer Sensor for Biomarker Dipicolinic Acid Detection

Xiu, Ling-Fang; Huang, Kai-Yuan; Zhu, Chen-Ting; Zhang, Qi; Peng, Hua-Ping; Xia, Xing‐Hua; Chen, Wei; Deng, Hao‐Hua

doi:10.1021/acs.langmuir.0c03341

Cited by 28 publications

(19 citation statements)

References 54 publications

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“…Interestingly, compared with the Eu 3+ −DPA system, the fluorescence intensity of the AgNPs−Eu 3+ -DPA system is greatly enhanced. The possible explanation is that the coordination number of Eu 3+ in its complex is 6−8 in the Eu 3+ −DPA system (the association constant of Eu 3+ −DPA, log K = 7.4), 42 and after it coordinates with DPA and is yet not saturated, Eu 3+ ions will coordinate with water molecules. However, in the AgNPs−Eu 3+ −DPA system, except for the coordination with DPA, Eu 3+ ions can also coordinate with the carboxyl groups on the surface of the Cit-modified AgNPs (the association constant of Eu 3+ −Cit, log K = 5.5), 43 which can reduce the coordination number with water molecules 44 and decrease the nonradiative energy loss and cause the fluorescence enhancement of the system.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Yin

Tong

2021

ACS Appl. Nano Mater.

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Detection of Bacillus anthracis spores is of great importance for biosecurity and prevention of disease outbreaks. In this paper, a ratiometric colorimetric and fluorescent dual-mode platform for rapid, sensitive, and visual detection of dipicolinic acid (DPA), a biomarker of anthrax spores, was developed based on Eu 3+ -modified silver nanoparticles (AgNPs). Eu 3+ -modified AgNPs can induce the aggregation of AgNPs, its localized surface plasmon resonance (LSPR) absorption at 392 nm is decreased, and a new absorption peak at 524 nm emerged. Interestingly, upon the addition of DPA, it can effectively inhibit the aggregation of AgNPs−Eu 3+ , and the solution color changes from pink to yellow, while the red characteristic fluorescence of Eu 3+ is turned on owing to the energy transfer from DPA to Eu 3+ by the antenna effect. A new insight that AgNPs can also enhance the fluorescence of Eu 3+ was found. Eu 3+ -modified AgNPs as a dual-mode platform for ratiometric colorimetric and fluorescence detection of DPA were thus fabricated. The good linearity is in the range of 1.0−25 μM with a LOD of 0.31 μM for the ratiometric colorimetric assay and 0.25−45 μM with a LOD of 17 nM for the fluorescent assay, which is greatly lower than the dose of DPA (60 μM) released by the contagious number of spores to cause anthrax. The ratiometric colorimetric and fluorescent probes were successfully applied for the detection of DPA in lake waters and Bacillus subtilis, and as low as 1.8 × 10 4 spores were detected.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Yin

Tong

2021

ACS Appl. Nano Mater.

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“…22 Fluorescence chemosensors have been widely used in analytical chemistry and life science due to their low cost, simplicity, and rapidity. 23,24 Fluorescent sensor arrays not only adopt the above advantages but also can be applied to multitarget identification. 22,25 For instance, a Zn(salicylaldimine)-based fluorescent sensor array was reported to accurately discriminate nitroaromatics, in which the fluorescence was quenched to varying degrees.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Compared with approaches to detect one individual compound at a time, sensor arrays are able to discriminate multiple ingredients simultaneously . Fluorescence chemosensors have been widely used in analytical chemistry and life science due to their low cost, simplicity, and rapidity. , Fluorescent sensor arrays not only adopt the above advantages but also can be applied to multitarget identification. , For instance, a Zn(salicylaldimine)-based fluorescent sensor array was reported to accurately discriminate nitroaromatics, in which the fluorescence was quenched to varying degrees . Abbasi-Moayed and co-workers have established a nanopaper-based ratiometric fluorescent sensor array using nanohybrids for the discrimination of heavy metal ions by RGB analysis .…”

Section: Introductionmentioning

confidence: 99%

Lanthanide Metal–Organic Framework-Based Fluorescent Sensor Arrays to Discriminate and Quantify Ingredients of Natural Medicine

Yin

Zheng

et al. 2021

Langmuir

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The discrimination and quantification of the ingredients from natural medicines are a challenging issue due to their complicated and various structures. Metal–organic frameworks (MOFs) have shown great promise in sensing applications. Here, we report a fluorescent sensor array for rapid identification of some natural compounds using a sensor array composed of four kinds of lanthanide (Eu3+ and Tb3+) fluorescent MOFs (Ln-MOFs), which have diversified fluorescent responses to 26 active/toxic compounds including 12 saponins, 7 flavonoids, 3 stilbenes, and 4 anthraquinones. The fluorescence of the Ln-MOFs after reaction with the compounds was summarized as datasets and processed by principle component analysis (PCA) and hierarchical cluster analysis (HCA) methods. The corresponding responses of the 4 types of compounds are well separated on 2D/3D PCA score plots and HCA dendrograms. We have also tested typical blind samples by concentration-dependent PCA, and an accuracy of 100% was obtained. In addition, the response mechanisms of the Ln-MOFs to the compounds were also studied. Compared with traditional methods using liquid chromatography-mass spectrometry, the developed fluorescent sensor array provides a more efficient and economic strategy to discriminate various active/toxic ingredients in natural medicine.

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“…As mentioned before, DPA acts as a suitable biomarker and is often used for the spore detection as well [ 9 ]. DPA can either be detected by a historic colorimetric assay from the 1950‐1960s, using ammonium iron(II) sulfate [ 16 , 17 ] or in more recent publications with lanthanides such as europium(III) or terbium(III) [ 18 , 19 , 20 , 21 , 22 ]. Those assays have no special technical requirements and lead to a significant time‐saving compared to CFU.…”

Section: Introductionmentioning

confidence: 99%

Facilitated endospore detection for Bacillus spp. through automated algorithm‐based image processing

Biermann

Niemeyer

Rösner

et al. 2021

Engineering in Life Sciences

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Bacillus spp. endospores are important dormant cell forms and are distributed widely in environmental samples. While these endospores can have important industrial value (e.g. use in animal feed as probiotics), they can also be pathogenic for humans and animals, emphasizing the need for effective endospore detection. Standard spore detection by colony forming units (CFU) is time-consuming, elaborate and prone to error. Manual spore detection by spore count in cell counting chambers via phase-contrast microscopy is less timeconsuming. However, it requires a trained person to conduct. Thus, the development of a facilitated spore detection tool is necessary. This work presents two alternative quantification methods: first, a colorimetric assay for detecting the biomarker dipicolinic acid (DPA) adapted to modern needs and applied for Bacillus spp. and second, a model-based automated spore detection algorithm for spore count in phase-contrast microscopic pictures. This automated spore count tool advances manual spore detection in cell counting chambers, and does not require human overview after sample preparation. In conclusion, this developed model detected various Bacillus spp. endospores with a correctness of 85-89%, and allows an automation and time-saving of Bacillus endospore detection. In the laboratory routine, endospore detection and counting was achieved within 5-10 min, compared to up to 48 h with conventional methods. The DPA-assay on the other hand enabled very accurate spore detection by simple colorimetric measurement and can thus be applied as a reference method.

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Rare-Earth Eu³⁺/Gold Nanocluster Ensemble-Based Fluorescent Photoinduced Electron Transfer Sensor for Biomarker Dipicolinic Acid Detection

Cited by 28 publications

References 54 publications

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Lanthanide Metal–Organic Framework-Based Fluorescent Sensor Arrays to Discriminate and Quantify Ingredients of Natural Medicine

Facilitated endospore detection for Bacillus spp. through automated algorithm‐based image processing

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Rare-Earth Eu3+/Gold Nanocluster Ensemble-Based Fluorescent Photoinduced Electron Transfer Sensor for Biomarker Dipicolinic Acid Detection

Cited by 28 publications

References 54 publications

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Europium(III)-Modified Silver Nanoparticles as Ratiometric Colorimetric and Fluorescent Dual-Mode Probes for Selective Detection of Dipicolinic Acid in Bacterial Spores and Lake Waters

Lanthanide Metal–Organic Framework-Based Fluorescent Sensor Arrays to Discriminate and Quantify Ingredients of Natural Medicine

Facilitated endospore detection for Bacillus spp. through automated algorithm‐based image processing

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Rare-Earth Eu³⁺/Gold Nanocluster Ensemble-Based Fluorescent Photoinduced Electron Transfer Sensor for Biomarker Dipicolinic Acid Detection