Bacteriophage-Conjugated Fluorescent Nanoemulsion as a Novel Optical Probe for Highly Selective Bacterial Detection

IF 3.3 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Bulletin of the Chemical Society of Japan Pub Date : 2023-09-23 DOI:10.1246/bcsj.20230200

Shin-ya Sekida, Takatoshi Chisaka, Jumpei Uchiyama, Iyo Takemura-Uchiyama, Shigenobu Matsuzaki, Yosuke Niko, Shingo Hadano, Shigeru Watanabe

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Abstract

Infectious diseases mortality decreased due to effective drugs and healthcare. However, global health remains threatened by infectious diseases. New methods to rapid and accurate bacterial detection have attracted considerable attention. Fluorescence detection of whole bacterial cells offers high sensitivity, quantitative analysis, and simple operation. A highly fluorescent bioconjugated probe improves sensitivity and selectivity. This study presents a novel, bright fluorescent probe comprising a bacteriophage and a fluorescent nanoemulsion (fNE) as biorecognition and signal transduction elements, respectively. We demonstrate that fluorescence microscopy imaging using the S. aureus-specific phage, S13’-fNE (phage-fNE), detects S. aureus in the presence of E. coli or S. pseudintermedius, another closely related Staphylococci, in a highly selective manner. Furthermore, fNEs with high dye loadings exhibit considerably greater brightness compared to the fluorescent dye alone, making them suitable for sensitive fluorescence imaging. Phage-fNEs can quantitatively detect S. aureus at 104–108 colony-forming units per milliliter (CFU mL−1), with a limit of detection of 8 × 104 CFU mL−1. This result is comparable to the lowest value achieved by microscopic bacterial detection, with no preconcentration or enzymatic signal enhancement methods used. Bioconjugated fNEs open new avenues for highly selective and sensitive fluorescent detection of bacteria. This study presents a novel, bright fluorescent probe comprising a bacteriophage and a fluorescent nanoemulsion (fNE) as biorecognition and signal transduction elements, respectively. We demonstrate that fluorescence microscopy imaging using the S. aureus-specific phage, S13’-fNE (phage-fNE), detects S. aureus in the presence of E. coli or S. pseudintermedius, another closely related Staphylococci, in a highly selective manner.

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噬菌体共轭荧光纳米乳作为一种高选择性细菌检测的新型光学探针

由于有效的药物和保健，传染病死亡率下降。然而，全球健康仍然受到传染病的威胁。快速、准确的细菌检测新方法引起了人们的广泛关注。荧光检测整个细菌细胞灵敏度高，定量分析，操作简单。高荧光生物偶联探针提高了灵敏度和选择性。本研究提出了一种新型的、明亮的荧光探针，分别由噬菌体和荧光纳米乳(fNE)作为生物识别和信号转导元件。我们证明，使用金黄色葡萄球菌特异性噬菌体S13′-fNE(噬菌体-fNE)的荧光显微镜成像，以高度选择性的方式检测大肠杆菌或另一种密切相关的葡萄球菌假中间葡萄球菌存在的金黄色葡萄球菌。此外，与单独的荧光染料相比，具有高染料负载的fNEs表现出相当大的亮度，使它们适合于敏感的荧光成像。噬菌体fnes可定量检测金黄色葡萄球菌，检测限为每毫升104 - 108个菌落形成单位(CFU mL - 1)，检出限为8 × 104 CFU mL - 1。该结果与显微镜下细菌检测获得的最低值相当，不使用预浓缩或酶信号增强方法。生物偶联fNEs为高选择性、高灵敏度的细菌荧光检测开辟了新的途径。本研究提出了一种新型的、明亮的荧光探针，分别由噬菌体和荧光纳米乳(fNE)作为生物识别和信号转导元件。我们证明，使用金黄色葡萄球菌特异性噬菌体S13′-fNE(噬菌体-fNE)的荧光显微镜成像，以高度选择性的方式检测大肠杆菌或另一种密切相关的葡萄球菌假中间葡萄球菌存在的金黄色葡萄球菌。

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来源期刊

Bulletin of the Chemical Society of Japan 化学-化学综合

CiteScore

6.40

自引率

5.00%

发文量

194

审稿时长

3-8 weeks

期刊介绍： The Bulletin of the Chemical Society of Japan (BCSJ) is devoted to the publication of scientific research papers in the fields of Theoretical and Physical Chemistry, Analytical and Inorganic Chemistry, Organic and Biological Chemistry, and Applied and Materials Chemistry. BCSJ appears as a monthly journal online and in advance with three kinds of papers (Accounts, Articles, and Short Articles) describing original research. The purpose of BCSJ is to select and publish the most important papers with the broadest significance to the chemistry community in general. The Chemical Society of Japan hopes all visitors will notice the usefulness of our journal and the abundance of topics, and welcomes more submissions from scientists all over the world.