Abstract:Based on the fluorescence enhancement effect of Zn2+ on bilirubin (BR), this work proposes a new method for the detection of Zn2+ concentration, and a systematically investigation of BR as a Zn2+ probe by using ultraviolet-visible light absorption and steady-state fluorescence spectroscopy has been conducted. Compared with the general single-wavelength fluorescence intensity method, this new detection method eliminates the impacts of the non-target effects of factors such as concentration variation of BR and the excitation light intensity, etc., and achieves a more accurate measurement capability in Zn2+ detection. Especially, for the first time we adopt the BR fluorescence intensities ratio at the emission wavelengths 663 and 600 nm, and investigate the dependence between this ratio and the Zn2+ concentration in the range from 0 to 90 μmol·L-1. The recognition behavior of BR probe to Zn2+ indicates that the BR fluorescence intensity ratio I663 nm/I600 nm increases linearly with the Zn2+ concentration in the range of 0~20 μmol·L-1. In particular, in the range 0~10 μmol·L-1 of Zn2+ concentration, the linear correlation coefficient r is 0.999 87, which demonstrates the linear dependence, and the detection limit is 0.1 μmol·L-1. In the Zn2+ concentration range from 20 to 90 μmol·L-1, the probe BR fluorescence intensity ratio is saturated. Accordingly, there is a positive prospect of BR fluorescence in the real-time human body Zn2+ detection.
郑 名,曹思敏,刘阳依,曹潇丹,陈 壮,闫姝君,李昊阳,陈缙泉,徐建华. 基于胆红素荧光增强效应的锌离子探针特性研究[J]. 光谱学与光谱分析, 2020, 40(03): 813-816.
ZHENG Ming, CAO Si-min, LIU Yang-yi, CAO Xiao-dan, CHEN Zhuang, YAN Shu-jun, LI Hao-yang, CHEN Jin-quan, XU Jian-hua. Study on Characteristics of Zinc Ion Probe Based on Fluorescence Enhancement of Bilirubin. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2020, 40(03): 813-816.
[1] Ngashangva L, Bachu V, Goswami P. J. Pharm. Biomed. Anal., 2019, 162: 272.
[2] ZHENG Wen-jie, YANG Fang, HU Xue-wang, et al(郑文杰,杨 芳,胡学旺, 等). Chinese Journal of Analysis Laboratory(分析试验室),2002, (2):73.
[3] Lee M C, Yu W C, Shih Y H, et al. Sci. Rep., 2018, 8(1): 4772.
[4] Sturikova H, Krystofova O, Huska D, et al. J. Hazard. Mater., 2018, 349: 101.
[5] Ramarao K, Rajesh Babu B, Kishore Babu B, et al. Journal of Electronic Materials,2018,47(5):2997.
[6] ZOU Feng, YUAN De-yi, GAO Chao, et al(邹 锋,袁德义,高 超,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2014,34(4):1095.
[7] Wan Q, Ahmad M F, Fairman J, et al. Structure,2011, 19(5):700.
[8] Ouyang R, Zhu Z, Tatum C E, et al. J. Electroanal Chem., 2011, 656(1-2): 78.
[9] Ponnuvel K, Kumar M, Padmini V. Sensors and Actuators, B, 2016,227:242.
[10] Zhang D Y, Azrad M, Demark-Wahnefried W, et al. ACS Chemical Biology,2015, 10(2):385.
[11] Xu Z, Liu X, Pan J, et al. Chem. Commun (Camb), 2012, 48(39): 4764.
[12] Vidya B, Sivaraman G, Sumesh R V, et al. Chemistry Select,2016, 1(13):4024.
[13] Wabaidur S M, Eldesoky G E, Alothman Z A. Luminescence,2018, 33(3):625.
[14] Anjana R R, Anjali Devi J S, Jayasree M, et al. Mikrochim Acta,2018, 185(1):11.
[15] Jayasree M, Aparna R S, Anjana R R, et al. Anal. Chim. Acta, 2018, 1031:152.
[16] Shcherbakova D M, Shemetov A A, Kaberniuk A A, et al. Annu. Rev. Biochem., 2015, 84: 519.
