Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad
A highly sensitive and selective probe for Vancomycin (Van) in aqueous and serum samples is developed in this study. The probe is based on a triad consisting of a near-infrared squaraine dye (Seta-640) conjugated to two anthraquinone molecules via Lys-d-Ala-d-Ala peptides. In the absence of Van, the...
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sg-ntu-dr.10356-1392782020-05-18T08:05:45Z Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad Ng, Shue Mei Wu, Xiangyang Muhammad Faisal Khyasudeen Nowakowski, Paweł J. Tan, Howe-Siang Xing, Bengang Yeow, Edwin Kok Lee School of Physical and Mathematical Sciences Science::Chemistry Vancomycin Electron Transfer A highly sensitive and selective probe for Vancomycin (Van) in aqueous and serum samples is developed in this study. The probe is based on a triad consisting of a near-infrared squaraine dye (Seta-640) conjugated to two anthraquinone molecules via Lys-d-Ala-d-Ala peptides. In the absence of Van, the close proximity and efficient electron-transfer from the excited Seta-640 dye to anthraquinone result in significant fluorescence quenching of the dye (“off”-state). When Van is added, the antibiotic molecules bind with high affinity to the -d-Ala-d-Ala ligands in a 2:1 stoichiometry (Van:triad), resulting in fluorescence recovery that is as high as 30 times (“on”-state). Even though bound Van enhances the fluorescence by reducing the rate of (intrinsic) polarity-induced nonradiative decay process, this effect plays only a minor role. Instead, the main reason behind the observed fluorescence recovery after drug binding is the effective inhibition of electron-transfer; plausibly arising from a steric-induced lengthening of the spatial separation between electron donor and acceptor. The probe has detection limits of 7.0 and 96.9 nM in buffer and human serum, respectively, operates in the clinically relevant range, is insensitive to Van crystalline degradation product (CDP-1), and is easy to operate by using a commonly available fluorescence spectrometer. MOE (Min. of Education, S’pore) 2020-05-18T08:05:45Z 2020-05-18T08:05:45Z 2018 Journal Article Ng, S. M., Wu, X., Muhammad Faisal Khyasudeen, Nowakowski, P. J., Tan, H.-S., Xing, B., & Yeow, E. K. L. (2018). Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad. ACS Sensors, 3(6), 1156-1163. doi:10.1021/acssensors.8b00188 2379-3694 https://hdl.handle.net/10356/139278 10.1021/acssensors.8b00188 29792330 2-s2.0-85057375487 6 3 1156 1163 en ACS Sensors © 2018 American Chemical Society. All rights reserved. |
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Science::Chemistry Vancomycin Electron Transfer Ng, Shue Mei Wu, Xiangyang Muhammad Faisal Khyasudeen Nowakowski, Paweł J. Tan, Howe-Siang Xing, Bengang Yeow, Edwin Kok Lee Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| description |
A highly sensitive and selective probe for Vancomycin (Van) in aqueous and serum samples is developed in this study. The probe is based on a triad consisting of a near-infrared squaraine dye (Seta-640) conjugated to two anthraquinone molecules via Lys-d-Ala-d-Ala peptides. In the absence of Van, the close proximity and efficient electron-transfer from the excited Seta-640 dye to anthraquinone result in significant fluorescence quenching of the dye (“off”-state). When Van is added, the antibiotic molecules bind with high affinity to the -d-Ala-d-Ala ligands in a 2:1 stoichiometry (Van:triad), resulting in fluorescence recovery that is as high as 30 times (“on”-state). Even though bound Van enhances the fluorescence by reducing the rate of (intrinsic) polarity-induced nonradiative decay process, this effect plays only a minor role. Instead, the main reason behind the observed fluorescence recovery after drug binding is the effective inhibition of electron-transfer; plausibly arising from a steric-induced lengthening of the spatial separation between electron donor and acceptor. The probe has detection limits of 7.0 and 96.9 nM in buffer and human serum, respectively, operates in the clinically relevant range, is insensitive to Van crystalline degradation product (CDP-1), and is easy to operate by using a commonly available fluorescence spectrometer. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Ng, Shue Mei Wu, Xiangyang Muhammad Faisal Khyasudeen Nowakowski, Paweł J. Tan, Howe-Siang Xing, Bengang Yeow, Edwin Kok Lee |
| format |
Article |
| author |
Ng, Shue Mei Wu, Xiangyang Muhammad Faisal Khyasudeen Nowakowski, Paweł J. Tan, Howe-Siang Xing, Bengang Yeow, Edwin Kok Lee |
| author_sort |
Ng, Shue Mei |
| title |
Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| title_short |
Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| title_full |
Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| title_fullStr |
Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| title_full_unstemmed |
Vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| title_sort |
vancomycin determination by disrupting electron-transfer in a fluorescence turn-on squaraine – anthraquinone triad |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/139278 |
| _version_ |
1681058171868676096 |