Molecular Fluorescent Sensors for Cellular Studies 2022
DOI: 10.1002/9781119749844.ch5
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Activity‐based Fluorescent Sensors and Their Applications in Biological Studies

Liam D. Adair
1
,
Nian Kee Tan
2
,
Elizabeth J. New
3
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Cited by 1 publication
(2 citation statements)
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“…The biotin-amine probe reacts with cancer cell FA to form a Schiff base detectable by SA-conjugated fluorescent or colorimetric probes. 177 Hydrazone formation and photo-induced electron transfer effect suppression were used to create a biotin-pendant-decorated naphthalimide-based FA sensor for cancer cells. After adding FA to a phosphate-buffered saline PBS-buffered aqueous sensor solution, absorbance at 428 nm increased slightly, and fluorescence enhancement at 541 nm increased 140-fold.…”
Section: Formaldehyde Sensingmentioning
confidence: 99%
See 1 more Smart Citation

Biotin-functionalized nanoparticles: an overview of recent trends in cancer detection

Fathi-karkan,
Sargazi,
Shojaei
et al. 2024
Nanoscale
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“…The biotin-amine probe reacts with cancer cell FA to form a Schiff base detectable by SA-conjugated fluorescent or colorimetric probes. 177 Hydrazone formation and photo-induced electron transfer effect suppression were used to create a biotin-pendant-decorated naphthalimide-based FA sensor for cancer cells. After adding FA to a phosphate-buffered saline PBS-buffered aqueous sensor solution, absorbance at 428 nm increased slightly, and fluorescence enhancement at 541 nm increased 140-fold.…”
Section: Formaldehyde Sensingmentioning
confidence: 99%
“…The biotin-amine probe reacts with cancer cell FA to form a Schiff base detectable by SA-conjugated fluorescent or colorimetric probes. 177…”
Section: Biotin-functionalized Nps For Cancer Detectionmentioning
confidence: 99%

Biotin-functionalized nanoparticles: an overview of recent trends in cancer detection

Fathi-karkan,
Sargazi,
Shojaei
et al. 2024
Nanoscale
2
0
0
0
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