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Tide Quencher™ 8WS azide [TQ8WS azide]
Tide Quencher™ 8WS (TQ8WS) is a non-fluorescent molecule designed to efficiently quench the fluorescence of IR fluorophores such as ICG, iFluor® 820, iFluor® 840 and iFluor® 860. It has the longest absorption wavelength among all the commercial quenchers. TQ8WS is designed to be the most effective IR quencher with (a). much stronger absorption, and (b). much higher quenching efficiency for IR dyes. Tide Quencher™ 8WS Azide is an excellent building block for preparing TQ5.1WS-labeled probes from alkyne-modified oligonucleotides (including DBCO-modified oligonucleotides) and peptides. It can be used in techniques such as polymerase chain reaction (PCR), real-time PCR, and DNA sequencing. In these applications, fluorescence signals are used to monitor the amplification or detection of specific DNA sequences. TQ8WS quenches the fluorescent signal until a specific event (like DNA strand separation or primer extension) occurs, leading to an increase in fluorescence that can be detected and quantified. Fluorescence resonance energy transfer (FRET)-based assays are widely used to detect and measure the presence of specific molecules in a sample. They involve the use of a fluorescent molecule (fluorophore) and a quencher molecule such as TQ8WS. The fluorophore emits light when excited by a specific wavelength of light, while the quencher molecule absorbs this emitted light, effectively "quenching" the fluorescence signal.
Product family
| Name | Extinction coefficient (cm -1 M -1) | Correction Factor (260 nm) | Correction Factor (280 nm) |
| Tide Quencher™ 4WS azide [TQ4WS azide] | 900001 | 0.149 | 0.136 |
| Tide Quencher™ 6WS azide [TQ6WS azide] | 130000 | 0.120 | 0.102 |
| Tide Quencher™ 1 azide [TQ1 azide] | 20000 | 0.147 | 0.194 |
| Tide Quencher™ 2 azide [TQ2 azide] | 21000 | 0.100 | 0.12 |
| Tide Quencher™ 3 azide [TQ3 azide] | 22000 | 0.085 | 0.091 |
| Tide Quencher™ 5WS azide [TQ5WS azide] | 130000 | 0.072 | 0.082 |
| Tide Quencher™ 7WS azide [TQ7WS azide] | 140000 | 0.072 | 0.091 |
| Tide Fluor™ 8WS azide [TF8WS azide] *Near Infrared Emission* | 250000 | - | 0.109 |
References
View all 10 references: Citation Explorer
Test method for evaluating the photocytotoxic potential of fluorescence imaging products.
Authors: Vig, Shruti and Gaitan, Brandon and Frankle, Lucas and Chen, Yu and Elespuru, Rosalie and Pfefer, T Joshua and Huang, Huang-Chiao
Journal: Photochemistry and photobiology (2023)
Authors: Vig, Shruti and Gaitan, Brandon and Frankle, Lucas and Chen, Yu and Elespuru, Rosalie and Pfefer, T Joshua and Huang, Huang-Chiao
Journal: Photochemistry and photobiology (2023)
Performance of two clinical fluorescence imaging systems with different targeted and non-targeted near-infrared fluorophores: a cadaveric explorative study.
Authors: Chiti, Lavinia E and Husi, Benjamin and Park, Brian and Beer, Patricia and D'Orchymont, Faustine and Holland, Jason P and Nolff, Mirja C
Journal: Frontiers in veterinary science (2023): 1091842
Authors: Chiti, Lavinia E and Husi, Benjamin and Park, Brian and Beer, Patricia and D'Orchymont, Faustine and Holland, Jason P and Nolff, Mirja C
Journal: Frontiers in veterinary science (2023): 1091842
Impact of Surgical Lights on the Performance of Fluorescence-Guided Surgery Systems: A Pilot Study.
Authors: Chiti, Lavinia E and Park, Brian and d'Orchymont, Faustine and Holland, Jason P and Nolff, Mirja C
Journal: Animals : an open access journal from MDPI (2023)
Authors: Chiti, Lavinia E and Park, Brian and d'Orchymont, Faustine and Holland, Jason P and Nolff, Mirja C
Journal: Animals : an open access journal from MDPI (2023)
Deep learning for in vivo near-infrared imaging.
Authors: Ma, Zhuoran and Wang, Feifei and Wang, Weizhi and Zhong, Yeteng and Dai, Hongjie
Journal: Proceedings of the National Academy of Sciences of the United States of America (2021)
Authors: Ma, Zhuoran and Wang, Feifei and Wang, Weizhi and Zhong, Yeteng and Dai, Hongjie
Journal: Proceedings of the National Academy of Sciences of the United States of America (2021)
Structurally symmetric near-infrared fluorophore IRDye78-protein complex enables multimodal cancer imaging.
Authors: Yang, Jiang and Zhao, Chunhua and Lim, Jacky and Zhao, Lina and Tourneau, Ryan Le and Zhang, Qize and Dobson, Damien and Joshi, Suhasini and Pang, Jiadong and Zhang, Xiaodong and Pal, Suchetan and Andreou, Chrysafis and Zhang, Hanwen and Kircher, Moritz F and Schmitthenner, Hans
Journal: Theranostics (2021): 2534-2549
Authors: Yang, Jiang and Zhao, Chunhua and Lim, Jacky and Zhao, Lina and Tourneau, Ryan Le and Zhang, Qize and Dobson, Damien and Joshi, Suhasini and Pang, Jiadong and Zhang, Xiaodong and Pal, Suchetan and Andreou, Chrysafis and Zhang, Hanwen and Kircher, Moritz F and Schmitthenner, Hans
Journal: Theranostics (2021): 2534-2549
Page updated on November 16, 2024
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