|
|
|
|
|
|
| Mechanism of the Variation of Horseradish Peroxidase Catalytic Activity Induced by Light |
| TANG Qian1, 3*, GONG Ting-ting1,3, CAO Hong-yu1, 3, WANG Li-hao2,3, LI Ru-yu2, ZHENG Xue-fang1, 2, 3* |
1. College of Life Science and Biotechnology,Dalian University,Dalian 116622,China
2. College of Environmental and Chemical Engineering,Dalian University,Dalian 116622,China
3. Liaoning Key Laboratory of Bio-organic Chemistry,Dalian University,Dalian 116622,China |
|
|
|
|
Abstract Horseradish Peroxidase(HRP) is a widely used biocatalyst. However, activity change mechanism of HRP after irradiation has not been reported. In this research, the effects of irradiation on the catalytic activity of HRP and the mechanism of enzyme activity were studied by UV-Vis absorption、synchronous fluorescence and circular dichroism(CD) spectroscopy. The experimental results showed that irradiation could promote HRP reduction, while its catalytic activity would change. The UV-Vis absorption spectra date showed that the maximum absorption peak of the Soret band of HRP was red shift after irradiation and the oxidation peak intensity at 498 nm was decreased, and consequently HRPFe(Ⅲ) was reduced to HRPFe(Ⅱ). The effect sequence of wavelength on the photoreduction was 280 nm> 254 nm> 498 nm> 403 nm; the activity of the enzyme was 403 nm> 498 nm> 254 nm> 280 nm; while irradiated by 280 nm light , Phe, Trp, Tyr, Cys free amino acids and glutathioneall could promote the photoreduction process. Enzyme activity was closely related to the degree of photoreduction, and Fe(Ⅱ) could not provide empty orbit coordination with H2O2, so light-induced reduction of Fe(Ⅲ) led to decreased activity. Synchrotron fluorescence and circular dichroism spectroscopy revealed that the conformation of HRP did changed after photoreduction, so the conformational change was the reason for the change of enzyme activity. The factors that affect the decrease of enzyme activity by ultraviolet light are the contribution of light-induced active center Fe(Ⅲ) reduction and protein conformational changes. The results of this study have important theoretical and practical significance for a further understanding of the effects of light on hemoglobin(enzyme) structures and functions.
|
|
Received: 2017-11-27
Accepted: 2018-03-19
|
|
|
|
Corresponding Authors:
TANG Qian, ZHENG Xue-fang
E-mail: tangqian@dlu.edu.cn; dlxfzheng@126.com
|
|
[1] Hathi M H, Shafizadeh N, Poisson L, et al. Physical Chemistry Chemical Physics PCCP, 2010, 12(45): 14985.
[2] ZHOU Hua-wei, CAO Hong-yu, TANG Qian, et al(周华伟, 曹洪玉, 唐 乾, 等). Acta Chim. Sinica(化学学报), 2011, 69(13): 1559.
[3] AN Liang-mei, CAO Hong-yu, TANG Qian, et al(安良梅,曹洪玉,唐 乾,等). Chinese Journal of Inorganic Chemistry(无机化学学报), 2012, 28(7): 1461.
[4] Brm O, Consani C, Cannizzo A, et al. Journal of Physical Chemistry B, 2011, 115(46): 13723.
[5] Cao H Y, Liu Y W, Tang Q, et al. Protein & Peptide Letters, 2015, 22(9): 853.
[6] CAO Hong-yu, SHI Fei, TANG Qian, et al(曹洪玉,史 飞,唐 乾, 等). Chinese Journal of Inorganic Chemistry(无机化学学报), 2017, 33(8): 1339.
[7] Liang X, Chen G, Zhang X, et al. Journal of Photochemistry & Photobiology B Biology, 2008, 90(1): 53.
[8] Alizadeh N, Hallaj R, Salimi A. Biosensors & Bioelectronics, 2017, 94: 184.
[9] Stillman J S, Stillman M J, Dunford H B. Biochemistry, 1975, 14(14): 3183.
[10] Berglund J, Pascher T, Winkle J R, et al. Journal of the American Chemical Society, 1997, 119(10): 2464.
[11] Kai K, Nakamura T, Tsukahara S. Chemistry of Materials, 2012, 23(11): 2968.
[12] Kai K, Tsukahara S. Journal of Physical Chemistry C, 2011, 115(27): 13232.
[13] Song H Y, Yao J H, Liu J Z, et al. Enzyme & Microbial Technology, 2005, 36(4): 605.
[14] Nevespetersen M T, Klitgaard S, Carvalho A S L, et al. Biophysical Journal, 2007, 92(6): 2016.
[15] Consani C, Aubck G, Van M F, et al. Science, 2013, 339(6127):1586.
[16] Manzocco L, Nicoli M C. Critical Reviews in Food Science and Nutrition,2015, 55(4): 469.
[17] TANG Qian, GONG Ting-ting, CAO Hong-yu, et al(唐 乾, 宫婷婷, 曹洪玉,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2017, 37(8): 2505.
[18] Shahram B, Kourosh Z, Bibi S H, et al. Journal of Diabetes and Metabolic Disorders, 2014, 13(1): 13. |
| [1] |
ZHANG Yu-lan1, CHEN Li-jun1*, ZHANG Yu-ge2, WU Zhi-jie1, MA Xing-zhu3, YANG Xiao-zhu1. Examining the Effects of Biochar Application on Soil Phosphorus Levels and Phosphatase Activities with Visible and Fluorescence Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2016, 36(07): 2325-2329. |
| [2] |
ZHANG Yu-lan1, CHEN Li-jun1*, DUAN Zheng-hu2, WU Zhi-jie1, SUN Cai-xia3, WANG Jun-yu1 . Change in Soil Enzymes Activities after Adding Biochar or Straw by Fluorescent Microplate Method[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2014, 34(02): 455-459. |
| [3] |
CHEN Yi-hui1, 2, TIAN Hui-lin1, LI Ji-heng1, LI Guo-ying1* . Study on the Effect of Temperature on the Conformation of Cross-Linked Collagen by Two-Dimensional Infrared Correlation Spectroscopy [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(06): 1500-1506. |
| [4] |
LUO Xi-yun1, 2, MA Wen-ting1, WU Jin-qing1, GENG Jin-pei3, LI Xiao-yu3, LI Xiu-yong3, DU Yi-ping1* . Infrared Spectroscopy Investigation on Conformational Change of Silk Fiber Induced by Gaseous Organic Acids Existing in Museum[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(04): 921-924. |
| [5] |
YANG Wei1, CHEN Sheng-zhou2*, ZOU Han-bo2, LIN Wei-ming1, 2 . TG-FTIR and XRD Spectroscopic Analysis for the Preparation of Nitrogen-Doped Carbon Supported Cobalt Electrocatalysts[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(04): 1114-1117. |
| [6] |
TAN Qing-tian, TIAN Zhen-hua, LI Guo-ying* . Specific Interaction Study in Collagen/Hyaluronic Acid Blends by Two-Dimensional Infrared Correlation Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011, 31(04): 970-974. |
| [7] |
MA Lin,HE Wei-ren,HUANG Ai-min,LI Li-shuo,TONG Zhang-fa, WEI Qiao-na,HUANG Zi-lun . Spectroscopic Study on the Conformational Change of Silk Fibroin in Methanol-Water Mixtures [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(11): 3047-3051. |
| [8] |
LI Hai-tao1,2, LI Yu-ping2, CAO Hong-bin2*, LI Xin-gang1, XUE Zhan-qiang3 . The Production of Hydroxyl Radical in HRP-NADH-H2O2 /O2 Systems and Its Application in Chlorobenzene Removal [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(11): 3119-3123. |
| [9] |
LI Gai-yun1, SUN Qi-ning2, QIN Te-fu1,HUANG Luo-hua1* . Effect of Reduction by Sodium Borohydride on the Structural Characteristics of Brown-Rotted Lignin [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(07): 1930-1933. |
| [10] |
ZHANG Li-li1,2, WU Zhi-jie1*, SONG Yu-chao3 . Mass Spectrometery Assay for Denitrifying Enzyme Activity Measurement[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(07): 2011-2013. |
| [11] |
LI Ye, YANG Hui, HAN Wei-wei, LIAO Ming-xia, LU Yi-qiang. An Enzyme Sensor for Phenolic Compounds Analysis[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2010, 30(02): 571-574. |
| [12] |
ZHANG Li-li1, 2, WU Zhi-jie1*, CHEN Li-jun1, LI Dong-po1, MA Xing-zhu1, 2, SHI Yun-feng1, 2 . A Microplate Fluorimetric Assay for Sacchariase Activity Measurement[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(05): 1341-1344. |
| [13] |
MA Wen-sheng1,3,HUANG Guo-xia1,LIANG Ai-hui2,JIANG Zhi-liang1,2* . Fluorescence Quenching Assay of Ultratrace Horseradish Peroxidase Using Rhodamine Dye [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(03): 759-761. |
| [14] |
LI Zhong-qin1,2,XU Xiao-ping1,2*,WANG Wu1. Catalytic Spectrophotometric Quantitation for Hypoxanthine by Conjugating Xanthine Oxidase with Horseradish Peroxidase[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2008, 28(09): 2169-2172. |
| [15] |
LEI Zu-meng1,GENG Xin-peng1*,DAI Li1,GENG Xin-du2. DSC and FTIR Study of Adsorbed Lysozyme on Hydrophobic Surface[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2008, 28(09): 2058-2061. |
|
|
|
|
