Application of surface plasmon resonance biosensor in quantitative analysis research

CHEN Langdong; DONG Zhongyun; L&#220; Diya; ZHU Zhenyu; LU Bin; CAO Yan

doi:10.3969/j.issn.1006-0111.2018.01.004

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Article Navigation > Journal of Pharmaceutical Practice and Service > 2018 > 36(1): 18-23

CHEN Langdong, DONG Zhongyun, LÜ Diya, ZHU Zhenyu, LU Bin, CAO Yan. Application of surface plasmon resonance biosensor in quantitative analysis research[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(1): 18-23. doi: 10.3969/j.issn.1006-0111.2018.01.004

Citation:

CHEN Langdong, DONG Zhongyun, LÜ Diya, ZHU Zhenyu, LU Bin, CAO Yan. Application of surface plasmon resonance biosensor in quantitative analysis research[J]. Journal of Pharmaceutical Practice and Service, 2018, 36(1): 18-23. doi: 10.3969/j.issn.1006-0111.2018.01.004

Application of surface plasmon resonance biosensor in quantitative analysis research

doi: 10.3969/j.issn.1006-0111.2018.01.004

1.
Department of Pharmaceutical Analysis, School of Pharmacy, Second Military Medical University, Shanghai 200433, China
2.
Department of Biochemical Pharmacy, School of Pharmacy, Second Military Medical University, Shanghai 200433, China
3.
Analytical and Testing Center, School of Pharmacy, Second Military Medical University, Shanghai 200433, China

Received Date: 2017-07-24
Rev Recd Date: 2017-11-01

Abstract

Surface plasmon resonance(SPR) is an optical phenomenon arises from mass changes on sensors based on interaction between substances, which could monitor the interaction between biomolecules quickly and accurately. It has the advantage of label-free, high specificity, high accuracy, real-time and on-line monitoring, which has attracted comprehensive attention in recent years. SPR biosensors could be applied in drug discovery, clinical diagnosis, food safety, environment monitoring and proteomics. In this manuscript, the application of SPR biosensors in food safety, environment monitor and biomedical analysis have been reviewed, which could provide reference to related research.
- surface plasmon resonance (SPR),
- immune sensing,
- food safety,
- environment monitor,
- biomedical analysis

References

[1]	Wood RW. On a remarkable case of uneven distribution of light in a diffraction grating spectrum[J]. Proceed Phys Soc Lond, 1902, 18(1):269-275.
[2]	Kretschmann E. The determination of the optical constants of metals by excitation of surface plasmons[J]. Zeitschrift Für Physik A Hadrons Nuclei, 1971, 241(4):313-324.
[3]	Hoa XD, Kirk AG, Tabrizian M. Towards integrated and sensitive surface plasmon resonance biosensors:a review of recent progress[J]. Bios Bioelectr, 2007, 23(2):151-160.
[4]	Homola J. Surface plasmon resonance sensors for detection of chemical and biological species[J]. Chem Rev, 2008, 108(2):462-493.
[5]	Shankaran D, Gobi K, Miura N. Recent advancements in surface plasmon resonance immunosensors for detection of small molecules of biomedical, food and environmental interest[J]. Sens Actuat B:Chem, 2007, 121(1):158-177.
[6]	Charles PT, Rangasammy JG, Anderson GP, et al. Microcapillary reversed-displacement immunosensor for trace level detection of TNT in seawater[J]. Analyt Chim Acta, 2004, 525(2):199-204.
[7]	周宏敏, 欧惠超, 姜浩, 等. 利用表面等离子共振技术快速检测牛奶中的磺胺甲GFDA2唑[J]. 食品科学, 2010, 31(6):168-171.
[8]	Song Y, Liu M, Wang S. Surface plasmon resonance sensor for phosmet of agricultural products at the ppt detection level[J]. J Agricult Food Chem, 2013, 61(11):2625-2630.
[9]	胡军娜, 吕春爽, 王金峰, 等. 生物毒素的研究进展[J]. 河北省科学院学报, 2016, 33(4):64-68.
[10]	Cuccioloni M, Mozzicafreddo M, Barocci S, et al. Biosensor-based screening method for the detection of aflatoxins B1-G1[J]. Analyt Chem, 2008, 80(23):9250-9256.
[11]	Yuan J, Deng D, Lauren DR, et al. Surface plasmon resonance biosensor for the detection of ochratoxin A in cereals and beverages[J]. Analyt Chim Acta, 2009, 656(1-2):63-71.
[12]	孙明君, 陈雍硕, 郑小龙, 等. SPR技术对奶粉中维生素B₁₂检测方法的建立[J]. 食品安全质量检测学报, 2014, 5(12):3891-3897.
[13]	孙明君, 陈雍硕, 郑小龙, 等. 奶粉中叶酸生物传感器检测方法的研究与应用[J]. 食品研究与开发, 2013, 34(22):49-51.
[14]	周宏敏, 欧惠超, 任鹏, et al. 利用SPR技术测定湖水中微囊藻毒素[J]. 中国环境科学, 2012, 32(7):1284-1287.
[15]	Mcnamee SE, Elliott CT, Delahaut P, et al. Multiplex biotoxin surface plasmon resonance method for marine biotoxins in algal and seawater samples[J]. Envir Sci Pollut Res Int, 2013, 20(10):6794-6807.
[16]	周宏敏, 欧惠超, 王洁, 等. 一种基于SPR的2,4-D检测技术[J]. 环境科学与技术, 2014, 37(120):337-405.
[17]	Tan Y, Wei T. Detection of 17beta-estradiol in water samples by a novel double-layer molecularly imprinted film-based biosensor[J]. Talanta, 2015, 141:279-287.
[18]	Chah S, Yi J, Zare RN. Surface plasmon resonance analysis of aqueous mercuric ions[J]. Sens Actuat B:Chem, 2004, 99(2):216-222.
[19]	Wang S, Forzani ES, Tao N. Detection of heavy metal ions in water by high-resolution surface plasmon resonance spectroscopy combined with anodic stripping voltammetry[J]. Analyt Chem, 2007, 79(12):4427-4432.
[20]	Mariani S, Minunni M. Surface plasmon resonance applications in clinical analysis[J]. Analyt Bioanalyt Chem, 2014, 406(9-10):2303-2323.
[21]	黄敏. 整合生物标志物体系的建立及在疾病诊断和药物疗效评价中的应用[D]. 上海:华东理工大学, 2012.
[22]	罗阳, 张波, 高维寅, 等. 表面等离子体免疫传感器同步定量尿液中多种微量蛋白的研究[J]. 第三军医大学学报, 2011, 33(7):658-662.
[23]	Vega B, Calle A, Sanchez A, et al. Real-time detection of the chemokine CXCL12 in urine samples by surface plasmon resonance[J]. Talanta, 2013, 109:209-215.
[24]	王红. 非典型呼吸道病原体检测方法研究进展[J]. 内科, 2015, 10(4):560-562.
[25]	Nilsson CE, Abbas S, Bennemo M, et al. A novel assay for influenza virus quantification using surface plasmon resonance[J]. Vaccine, 2010, 28(3):759-766.
[26]	Wang J, Luo Y, Zhang B, et al. Rapid label-free identification of mixed bacterial infections by surface plasmon resonance[J]. J Transl Med, 2011, 9(1):85.
[27]	符继红, 孙晓红, 王吉德, 等. 植物激素定量分析方法研究进展[J]. 科学通报, 2010, 55(33):3163-3176.
[28]	Frasconi M, Mazzarino M, Botre F, et al. Surface plasmon resonance immunosensor for cortisol and cortisone determination[J]. Analyt Bioanalyt Chem, 2009, 394(8):2151-2159.
[29]	Zhang Q, Jing L, Zhang J, et al. Surface plasmon resonance sensor for femtomolar detection of testosterone with water-compatible macroporous molecularly imprinted film[J]. Analyt Biochem, 2014, 463:7-14.
[30]	Yin L, Wang W, Wang S, et al. How does fluorescent labeling affect the binding kinetics of proteins with intact cells?[J]. Biosens Bioelectron, 2015, 66:412-416.
[31]	Fernandez F, Hegnerova K, Piliarik M, et al. A label-free and portable multichannel surface plasmon resonance immunosensor for on site analysis of antibiotics in milk samples[J]. Biosens Bioelectron, 2010, 26(4):1231-1238.
[32]	Fernandez F, Pinacho DG, Sanchez-Baeza F, et al. Portable surface plasmon resonance immunosensor for the detection of fluoroquinolone antibiotic residues in milk[J]. J Agricult Food Chem, 2011, 59(9):5036-5043.
[33]	Prabowo B A, Wang RY, Secario MK, et al. Rapid detection and quantification of enterovirus 71 by a portable surface plasmon resonance biosensor[J]. Biosens Bioelectron, 2017, 92:186-191.
[34]	Smith EA, Corn RM. Surface plasmon resonance imaging as a tool to monitor biomolecular interactions in an array based format[J]. Appl Spectrosc, 2003, 57(11):320A-332A.
[35]	Yao J, Stewart ME, Maria J, et al. Seeing molecules by eye:surface plasmon resonance imaging at visible wavelengths with high spatial resolution and submonolayer sensitivity[J]. Angewandte Chemie (International ed in English), 2008, 47(27):5013-5017.
[36]	Ma G, Guan Y, Wang S, et al. Study of small-molecule-membrane protein binding kinetics with nanodisc and charge-sensitive optical detection[J]. Anal Chem, 2016, 88(4):2375-2379.

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通讯作者: 陈斌, bchen63@163.com

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Application of surface plasmon resonance biosensor in quantitative analysis research

1. Department of Pharmaceutical Analysis, School of Pharmacy, Second Military Medical University, Shanghai 200433, China

2. Department of Biochemical Pharmacy, School of Pharmacy, Second Military Medical University, Shanghai 200433, China

3. Analytical and Testing Center, School of Pharmacy, Second Military Medical University, Shanghai 200433, China

Received Date: 2017-07-24

Rev Recd Date: 2017-11-01

Key words:

Abstract: Surface plasmon resonance(SPR) is an optical phenomenon arises from mass changes on sensors based on interaction between substances, which could monitor the interaction between biomolecules quickly and accurately. It has the advantage of label-free, high specificity, high accuracy, real-time and on-line monitoring, which has attracted comprehensive attention in recent years. SPR biosensors could be applied in drug discovery, clinical diagnosis, food safety, environment monitoring and proteomics. In this manuscript, the application of SPR biosensors in food safety, environment monitor and biomedical analysis have been reviewed, which could provide reference to related research.

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Reference (36)

[1]	Wood RW. On a remarkable case of uneven distribution of light in a diffraction grating spectrum[J]. Proceed Phys Soc Lond, 1902, 18(1):269-275.
[2]	Kretschmann E. The determination of the optical constants of metals by excitation of surface plasmons[J]. Zeitschrift Für Physik A Hadrons Nuclei, 1971, 241(4):313-324.
[3]	Hoa XD, Kirk AG, Tabrizian M. Towards integrated and sensitive surface plasmon resonance biosensors:a review of recent progress[J]. Bios Bioelectr, 2007, 23(2):151-160.
[4]	Homola J. Surface plasmon resonance sensors for detection of chemical and biological species[J]. Chem Rev, 2008, 108(2):462-493.
[5]	Shankaran D, Gobi K, Miura N. Recent advancements in surface plasmon resonance immunosensors for detection of small molecules of biomedical, food and environmental interest[J]. Sens Actuat B:Chem, 2007, 121(1):158-177.
[6]	Charles PT, Rangasammy JG, Anderson GP, et al. Microcapillary reversed-displacement immunosensor for trace level detection of TNT in seawater[J]. Analyt Chim Acta, 2004, 525(2):199-204.
[7]	周宏敏, 欧惠超, 姜浩, 等. 利用表面等离子共振技术快速检测牛奶中的磺胺甲GFDA2唑[J]. 食品科学, 2010, 31(6):168-171.
[8]	Song Y, Liu M, Wang S. Surface plasmon resonance sensor for phosmet of agricultural products at the ppt detection level[J]. J Agricult Food Chem, 2013, 61(11):2625-2630.
[9]	胡军娜, 吕春爽, 王金峰, 等. 生物毒素的研究进展[J]. 河北省科学院学报, 2016, 33(4):64-68.
[10]	Cuccioloni M, Mozzicafreddo M, Barocci S, et al. Biosensor-based screening method for the detection of aflatoxins B1-G1[J]. Analyt Chem, 2008, 80(23):9250-9256.
[11]	Yuan J, Deng D, Lauren DR, et al. Surface plasmon resonance biosensor for the detection of ochratoxin A in cereals and beverages[J]. Analyt Chim Acta, 2009, 656(1-2):63-71.
[12]	孙明君, 陈雍硕, 郑小龙, 等. SPR技术对奶粉中维生素B₁₂检测方法的建立[J]. 食品安全质量检测学报, 2014, 5(12):3891-3897.
[13]	孙明君, 陈雍硕, 郑小龙, 等. 奶粉中叶酸生物传感器检测方法的研究与应用[J]. 食品研究与开发, 2013, 34(22):49-51.
[14]	周宏敏, 欧惠超, 任鹏, et al. 利用SPR技术测定湖水中微囊藻毒素[J]. 中国环境科学, 2012, 32(7):1284-1287.
[15]	Mcnamee SE, Elliott CT, Delahaut P, et al. Multiplex biotoxin surface plasmon resonance method for marine biotoxins in algal and seawater samples[J]. Envir Sci Pollut Res Int, 2013, 20(10):6794-6807.
[16]	周宏敏, 欧惠超, 王洁, 等. 一种基于SPR的2,4-D检测技术[J]. 环境科学与技术, 2014, 37(120):337-405.
[17]	Tan Y, Wei T. Detection of 17beta-estradiol in water samples by a novel double-layer molecularly imprinted film-based biosensor[J]. Talanta, 2015, 141:279-287.
[18]	Chah S, Yi J, Zare RN. Surface plasmon resonance analysis of aqueous mercuric ions[J]. Sens Actuat B:Chem, 2004, 99(2):216-222.
[19]	Wang S, Forzani ES, Tao N. Detection of heavy metal ions in water by high-resolution surface plasmon resonance spectroscopy combined with anodic stripping voltammetry[J]. Analyt Chem, 2007, 79(12):4427-4432.
[20]	Mariani S, Minunni M. Surface plasmon resonance applications in clinical analysis[J]. Analyt Bioanalyt Chem, 2014, 406(9-10):2303-2323.
[21]	黄敏. 整合生物标志物体系的建立及在疾病诊断和药物疗效评价中的应用[D]. 上海:华东理工大学, 2012.
[22]	罗阳, 张波, 高维寅, 等. 表面等离子体免疫传感器同步定量尿液中多种微量蛋白的研究[J]. 第三军医大学学报, 2011, 33(7):658-662.
[23]	Vega B, Calle A, Sanchez A, et al. Real-time detection of the chemokine CXCL12 in urine samples by surface plasmon resonance[J]. Talanta, 2013, 109:209-215.
[24]	王红. 非典型呼吸道病原体检测方法研究进展[J]. 内科, 2015, 10(4):560-562.
[25]	Nilsson CE, Abbas S, Bennemo M, et al. A novel assay for influenza virus quantification using surface plasmon resonance[J]. Vaccine, 2010, 28(3):759-766.
[26]	Wang J, Luo Y, Zhang B, et al. Rapid label-free identification of mixed bacterial infections by surface plasmon resonance[J]. J Transl Med, 2011, 9(1):85.
[27]	符继红, 孙晓红, 王吉德, 等. 植物激素定量分析方法研究进展[J]. 科学通报, 2010, 55(33):3163-3176.
[28]	Frasconi M, Mazzarino M, Botre F, et al. Surface plasmon resonance immunosensor for cortisol and cortisone determination[J]. Analyt Bioanalyt Chem, 2009, 394(8):2151-2159.
[29]	Zhang Q, Jing L, Zhang J, et al. Surface plasmon resonance sensor for femtomolar detection of testosterone with water-compatible macroporous molecularly imprinted film[J]. Analyt Biochem, 2014, 463:7-14.
[30]	Yin L, Wang W, Wang S, et al. How does fluorescent labeling affect the binding kinetics of proteins with intact cells?[J]. Biosens Bioelectron, 2015, 66:412-416.
[31]	Fernandez F, Hegnerova K, Piliarik M, et al. A label-free and portable multichannel surface plasmon resonance immunosensor for on site analysis of antibiotics in milk samples[J]. Biosens Bioelectron, 2010, 26(4):1231-1238.
[32]	Fernandez F, Pinacho DG, Sanchez-Baeza F, et al. Portable surface plasmon resonance immunosensor for the detection of fluoroquinolone antibiotic residues in milk[J]. J Agricult Food Chem, 2011, 59(9):5036-5043.
[33]	Prabowo B A, Wang RY, Secario MK, et al. Rapid detection and quantification of enterovirus 71 by a portable surface plasmon resonance biosensor[J]. Biosens Bioelectron, 2017, 92:186-191.
[34]	Smith EA, Corn RM. Surface plasmon resonance imaging as a tool to monitor biomolecular interactions in an array based format[J]. Appl Spectrosc, 2003, 57(11):320A-332A.
[35]	Yao J, Stewart ME, Maria J, et al. Seeing molecules by eye:surface plasmon resonance imaging at visible wavelengths with high spatial resolution and submonolayer sensitivity[J]. Angewandte Chemie (International ed in English), 2008, 47(27):5013-5017.
[36]	Ma G, Guan Y, Wang S, et al. Study of small-molecule-membrane protein binding kinetics with nanodisc and charge-sensitive optical detection[J]. Anal Chem, 2016, 88(4):2375-2379.

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Application of surface plasmon resonance biosensor in quantitative analysis research

doi: 10.3969/j.issn.1006-0111.2018.01.004

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