- 标题
- 摘要
- 关键词
- 实验方案
- 产品
-
Nanostars on Nanopipettes: A Raman Probe for Quantifying Oxygen Levels in Hypoxia in Single Cells and Tumors
摘要: Multiple sharp-edged gold nanostars were efficiently assembled on nanopipette tips by 3-aminopropyltrimethoxysilane (APTES) via an electrostatic interaction for a potent intracellular hypoxia-sensing Raman probe. Colloidal stability and surface immobilization was checked using scanning electron microscopy, light scattering and zeta potential measurements. Site-specific intracellular hypoxia levels can be estimated in vitro and in vivo using Raman lancets (RL). Distinct Raman spectral changes for the nitro-(NO2) functional group of the redox maker 4-nitrothiophenol (4NTP) can be quantified according to the intracellular oxygen (O2) contents, ranging from 1% to 10%. Facile removal of RL from cells can be achieved after a short measurement time. Redox potential changes in mitochondrial respiration could also be examined using serial injection of inhibitors. Three-dimensional (3D)-cultured cells and in vivo tests were used to validate our methods of measuring tumour hypoxia; potential applications were validated in terms of judging the aggressiveness of cancer cells by differentiating spectral changes between malignant and benign cells.
关键词: Cancer aggressiveness,Hypoxia,Surface enhanced resonance Raman,Intracellular redox potential,Nanopipette lancets
更新于2025-09-23 15:23:52
-
Nanostars on Nanopipettes: A Raman Probe for Quantifying Oxygen Levels in Hypoxia in Single Cells and Tumors
摘要: Multiple sharp-edged gold nanostars were efficiently assembled on nanopipette tips by 3-aminopropyltrimethoxysilane (APTES) via an electrostatic interaction for a potent intracellular hypoxia-sensing Raman probe. Colloidal stability and surface immobilization was checked using scanning electron microscopy, light scattering and zeta potential measurements. Site-specific intracellular hypoxia levels can be estimated in vitro and in vivo using Raman lancets (RL). Distinct Raman spectral changes for the nitro-(NO2) functional group of the redox maker 4-nitrothiophenol (4NTP) can be quantified according to the intracellular oxygen (O2) contents, ranging from 1% to 10%. Facile removal of RL from cells can be achieved after a short measurement time. Redox potential changes in mitochondrial respiration could also be examined using serial injection of inhibitors. Three-dimensional (3D)-cultured cells and in vivo tests were used to validate our methods of measuring tumour hypoxia; potential applications were validated in terms of judging the aggressiveness of cancer cells by differentiating spectral changes between malignant and benign cells.
关键词: Hypoxia,Intracellular redox potential,Cancer aggressiveness,Nanopipette lancets,Surface enhanced resonance Raman
更新于2025-09-23 15:23:52
-
Rapid and sensitive surface-enhanced resonance Raman spectroscopy detection for norepinephrine in biofluids
摘要: Norepinephrine (NE) is a kind of catecholamine neurotransmitter that participates significant function in living organism. Rapid and sensitive detection target in complex system is crucial in analytical science. A facile ferric citrate (CA‐Fe (III)) sensor was designed successfully for sensitive detection of NE by surface‐enhanced resonance Raman spectroscopy (SERRS) method. This CA‐Fe (III) sensor was prepared by modifying Fe (III) on the surface of uniform Au nanoparticles (NPs) wrapped with citrate (CA) stabilizer. The implementation of NE selective detection is attributed to significant enhancement provided by Au NPs and additional enhancement provided by ligand‐to‐metal charge transfer between chromophore and analyte. In addition, a universal CH3OH, HCl, and petroleum ether added in sequence pretreatment method was developed and applied to purify and enrich the target in practical biological sample, realizing selective detection of NE in biofluids. This novel sensor combined with SERRS and pretreatment strategy not only amplifies the Raman signal of NE but also paves the way for pretreating sample in complex system.
关键词: norepinephrine,pretreatment method,ferric citrate sensor,surface‐enhanced resonance Raman spectroscopy,biofluids
更新于2025-09-23 15:21:01