应用量子点探针观察粒子辐射细胞损伤动态过程

杨林芳; 鲁逸林; 闫婧雯; 吴李君; 黄青

doi:10.11804/NuclPhysRev.31.01.096

原子核物理评论

应用量子点探针观察粒子辐射细胞损伤动态过程

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杨林芳, 鲁逸林, 闫婧雯, 吴李君, 黄青. 2014: 应用量子点探针观察粒子辐射细胞损伤动态过程, 原子核物理评论, null(1): 96-100. doi: 10.11804/NuclPhysRev.31.01.096

引用本文:

杨林芳, 鲁逸林, 闫婧雯, 吴李君, 黄青. 2014: 应用量子点探针观察粒子辐射细胞损伤动态过程, 原子核物理评论, null(1): 96-100. doi: 10.11804/NuclPhysRev.31.01.096

YANG Linfang, LU Yilin, YAN Jingwen, WU Lijun, HUANG Qing. 2014: Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation, Nuclear Physics Review, null(1): 96-100. doi: 10.11804/NuclPhysRev.31.01.096

Citation:

YANG Linfang, LU Yilin, YAN Jingwen, WU Lijun, HUANG Qing. 2014: Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation, Nuclear Physics Review, null(1): 96-100. doi: 10.11804/NuclPhysRev.31.01.096

应用量子点探针观察粒子辐射细胞损伤动态过程

中国科学院合肥物质科学研究院,合肥,230031
中国科学院合肥物质科学研究院，合肥 230031; 中国科学技术大学，合肥 230026

Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation

摘要: 荧光量子点由于具有发射荧光效率高、光稳定性好、无光漂白等优良特性，因此在生物学研究中得到广泛应用。用量子点标记细胞，通过量子点荧光可以对细胞进行长时程观察，实现活细胞动态示踪。利用量子点和DiO荧光染料对A549细胞膜双染，直观展示了量子点优于有机荧光染料的抗光漂白特性，并阐述了一种利用量子点对细胞A549进行标记并观测在α粒子辐照下细胞损伤动态变化过程的方法，这种方法对于阐明粒子辐射作用细胞的过程、了解辐射损伤的机理有一定的优势。
- 荧光量子点 /
- A549细胞 /
- 粒子辐射
Abstract: Owing to the excellent optical properties such as high quantum yield of emission, photo-stability and anti-photobleaching, fluorescent quantum dots(QDs) now have been extensively applied in bioscience re-search. Labeling cells by quantum dots allow long-term observation of the cellular processes. In this paper, we employed both QDs and DiO dye to label cells and thus showed the superior anti-photobleaching property of QDs directly, and also reported the method of application of QDs in observing the damage process of A549 cells induced byα particle irradiation, demonstrating the advantage of application of QDs in the radiobiology research.

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应用量子点探针观察粒子辐射细胞损伤动态过程

中国科学院合肥物质科学研究院,合肥,230031
中国科学院合肥物质科学研究院，合肥 230031; 中国科学技术大学，合肥 230026

关键词:

摘要: 荧光量子点由于具有发射荧光效率高、光稳定性好、无光漂白等优良特性，因此在生物学研究中得到广泛应用。用量子点标记细胞，通过量子点荧光可以对细胞进行长时程观察，实现活细胞动态示踪。利用量子点和DiO荧光染料对A549细胞膜双染，直观展示了量子点优于有机荧光染料的抗光漂白特性，并阐述了一种利用量子点对细胞A549进行标记并观测在α粒子辐照下细胞损伤动态变化过程的方法，这种方法对于阐明粒子辐射作用细胞的过程、了解辐射损伤的机理有一定的优势。

English Abstract

Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation

中国科学院合肥物质科学研究院,合肥,230031
中国科学院合肥物质科学研究院，合肥 230031; 中国科学技术大学，合肥 230026

Keywords:

Abstract: Owing to the excellent optical properties such as high quantum yield of emission, photo-stability and anti-photobleaching, fluorescent quantum dots(QDs) now have been extensively applied in bioscience re-search. Labeling cells by quantum dots allow long-term observation of the cellular processes. In this paper, we employed both QDs and DiO dye to label cells and thus showed the superior anti-photobleaching property of QDs directly, and also reported the method of application of QDs in observing the damage process of A549 cells induced byα particle irradiation, demonstrating the advantage of application of QDs in the radiobiology research.

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应用量子点探针观察粒子辐射细胞损伤动态过程

Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation

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应用量子点探针观察粒子辐射细胞损伤动态过程

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Quantum Dots as a Prob e to Observe the Pro cess of Cell Damage Induced by Particle Irradiation

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