近年来,生物传感器与纳米技术、流动注射和微流控等新技术的结合,获得了蓬勃而迅速的发展.亲和型生物传感器是基于生物分子之间的特异的亲和性,即生物活性物质对底物的亲和与键合而建立起来的一种新型传感装置.它具有特异性好、灵敏度高、成本低、能在复杂的体系中进行在线连续监测等优点,进而在生物医学领域,对生物医学标记物、核酸、蛋白质、病毒、细菌及毒素的检测、药物作用机理的研究、临床用药筛选等方面有着广泛的应用.本文从光学、电化学、石英晶体微天平传感、表面等离子体共振等几个方面对近年来亲和型生物传感器,特别是用于检测肿瘤标记物的免疫传感器和基于核酸适体的生物传感器在生物医学领域的测定原理和应用现状进行了评述,并对其发展趋势进行了展望.
参考文献
| [1] | Wang J,Lin Y H.Functionalized Carbon Nanotubes and Nanofibers for Biosensing Applications[J].Trends Anal Chem,2008,27(7):619-626 |
| [2] | LIANG Ruping,QIU Jianding,ZOU Xiaoyong,et al.Breast Cancer Antigen Immunosensor Based on the Functional Sol-gel Film[J].Chem J Chinese Univ,2004,25:425-429(in chinese).梁汝萍,邱建丁,邹小勇,等.基于功能化溶胶-凝胶膜的乳腺癌抗原免疫传感器[J].高等学校化学学报,2004,25:425-429. |
| [3] | Fu X H,Wang J Y,Li N,et al.Label-free Electrochemical Immunoassay of Carcinoembryonic Antigen in Human Serum Using Magnetic Nanorods as Sensing Probes[J].Microchim Acta,2009,165:437 -442. |
| [4] | Zhou L,Yuan R,Chai Y Q.On-Off PVC Membrane Based Potentiometric Immunosensor for Label-Free Detection of AlphaFetoprotein[J].Electroanalysis,2007,19:1131-1138. |
| [5] | Fernandez-Sanchez C,McNeil C J,Rawson K,et al.Disposable Noncompetitive Immunosensor for Free and Total Prostate-Specific Antigen Based on Capacitance Measurement[J].Anal Chem,2004,76:5649-5656. |
| [6] | Quershi A,Gurbuz Y,Kang W P,et al.A Novel Interdigitated Capacitor Based Biosensor for Detection of Cardiovascular Risk Marker[J].Biosens Bioelectron,2009,25 (4):877-882. |
| [7] | Zhu Q,Chai Y Q,Yuan R,et al.Development of a Biosensor for the Detection of Carcinoembryonic Antigen Using Faradic Impedance Spectroscopy[J].Chem Lett,2005,34:1682-1683. |
| [8] | Rajesh,Sharma V,Tanwar V K,et al.Electrochemical Impedance Immunosensor for the Detection of C-Reactive Protein in Aqueous Solution[J].Sensor Lett,2010,8:362-369. |
| [9] | Dai Z,Chen J,Yan F,et al.Electrochemical Sensor for Immunoassay of Carcinoembryonic Antigen Based on Thionine Monolayer Modified Gold Electrode[J].Cancer Detect Prev,2005,29:233-240. |
| [10] | Dai Z,Yan F,Yu H,et al.Novel Amperometric Immunosensor for Rapid Separation-free Immunoassay of Carcinoembryonic Antigen[J].J Immunol Methods,2004,287:13-20. |
| [11] | Dai Z,Yan F,Chen J,et al.Reagentless Amperometric Immunosensors Based on Direct Electrochemistry of Horseradish Peroxidase for Determination of Carcinoma Antigen-125[J].Anal Chem,2003,75:5429-5434. |
| [12] | Tan F,Yan F,Ju H X.Electrochemistry Nanometric Patterning of MOF Particles:Anisotropic Metal Electrodeposition in Cu/MOF[J].Electrochem Commun,2006,8:1830-1834. |
| [13] | He Z,Gao N,Jin W.Determination of Tumor Marker CA125 by Capillary Electrophoretic Enzyme Immunoassay with Electrochemical Detection[J].Anal Chim Acta,2003,497:75-81. |
| [14] | Kojima K,Hiratsuka A,Suzuki H,et al.Electrochemical Protein Chip with Arrayed Immunosensors with Antibodies Immobilized in a Plasma-Polymerized Film[J].Anal Chem,2003,75:1116-1122. |
| [15] | Wilson M S.Electrochemical Immunosensors for the Simultaneous Detection of Two Tumor Markers[J].Anal Chem,2005,77:1496-1502. |
| [16] | Zheng G,Patolsky F,Cui Y,et al.Multiplexed Electrical Detection of Cancer Markers with Nanowire Sensor Arrays[J].Nat Biotechnol,2005,23:1294-1301. |
| [17] | Ramanathan K,Bangar M A,Yun M,et al.Bioaffinity Sensing Using Biologically Functionalized Conducting-Polymer Nanowire[J].J Am Chem Soc,2005,127:496-497. |
| [18] | Katz E,Willner I.Biomolecule-Functionalized Carbon Nanotubes:Applications in Nanobioelectronics[J].Chem Phys Chem,2004,5:1084-1104. |
| [19] | Wu J,Tang J H,Dai Z,et al.A Disposable Electrochemical Immunosensor for Flow Injection Immunoassay of Carcinoembryonic Antigen[J].Biosens Bioelectron,2006,22 (1):102-108. |
| [20] | Wang J,Liu G D,Engelhard M H,et al.Sensitive Immunoassay of a Biomarker Tumor Necrosis Factor-α Based on Poly (guanine) -Functionalized Silica Nanopartiele Label[J].Anal Chem,2006,78 (19):6974-6979. |
| [21] | Chen J,Tang J H,Yan F,et al.A Gold Nanoparticles/sol-gel Composite Architecture for Encapsulation of Immunoconjugate for Reagentless Electrochemical Immunoassay[J].Biomaterials,2006,27(10):2313-2321. |
| [22] | Zhang Y Y,Yuan R,Chai Y Q,et al.Sensitive Label-free Immunoassay of Carcinoembryonic Antigen Based on Au TiO2 Hybrid nanocomposite Film[J].J Colloid Interface Sci,2010,348 (1):108-113. |
| [23] | Liu M Y,Jia C P,Jin Q H,et al.Novel Colorimetric Enzyme Immunoassay for the Detection of Carcinoembryonic Antigen[J].Talanta,2010,81:1625-1629. |
| [24] | Zhong Z Y,Wu W,Wang D,et al.Nanogold-enwrapped Graphene Nanocomposites as Trace Labels for Sensitivity Enhancement of Electrochemical Immunosensors in Clinical Immunoassays:Carcinoembryonic Antigen as a Model[J].Biosens Bioelectron,2010,25:2379-2383. |
| [25] | Yuan Y L,Yuan R,Chai Y Q,et al.A Novel Label-free Electrochemical Immunosensor for Carcinoembryonic Antigen Detection Based on the[Ag-Ag2O]/SiO2 Nanocomposite Material as a Redox Probe[J].J Electroanal Chem,2010,643:15-19. |
| [26] | Li J P,Gao H L,Chen Z Q,et al.An Electrochemical Immunosensor for Carcinoembryonic Antigen Enhanced by Selfassembled Nanogold Coatings on Magnetic Particles[J].Anal Chim Acta,2010,665:98-104. |
| [27] | Lin J H,He C Y,Zhang L J,et al.Sensitive Amperometric Immunosensor for a-Fetoprotein Based on Carbon Nanotube/gold Nanoparticle Doped Chitosan Film[J].Anal Biochem,2009,384:130-135. |
| [28] | Liang W B,Yuan R,Chai Y Q,et al.A Novel Label-free Voltammetric lmmunosensor for the Detection of α-Fetoprotein Using Functional Titanium Dioxide Nanoparticles[J].Electrochim Acta,2008,53:2302-2308. |
| [29] | Hong C L,Yuan R,Chai Y Q,et al.Ferrocenyl-doped Silica Nanoparticles as an Immobilized Affinity Support for Electrochemical Immunoassay of Cancer Antigen 15 -3[J].Anal Chim Acta,2009,633:244-249. |
| [30] | Yang Y D,Zhong Z Y,Liu H M,et al.Double-Layer Nanogold and Double-Strand DNA-Modified Electrode for Electrochemical Immunoassay of Cancer Antigen 15 -3[J].Electroanalysis,2008,20:2621-2628. |
| [31] | Kerman K,Endo T,Tsukamoto M,et al.Quantum Dot-based Immunosensor for the Detection of Prostate-specific Antigen Using Fluorescence Microscopy[J].Talanta,2007,71:1494-1499. |
| [32] | Lin Y Y,Wang J,Liu G D,et al.A Nanoparticle Label/immunochromatographic Electrochemical Biosensor for Rapid and Sensitive Detection of Prostate-specific Antigen[J].Biosens Bioelectron,2008,23:1659-1665. |
| [33] | Yang X Y,Guo Y S,Wang A G.Luminol/antibody Labeled Gold Nanoparticles for Chemiluminescence lmmunoassay of Carcinoembryonic Antigen[J].Anal Chim Acta,2010,666:91-96. |
| [34] | Min L G,Yuan R,Chai Y Q,et al.An Immunosensor for Carcinoembryonic Antigen Based on Gold Nanoparticles and Multi-wall Carbon Nanotube-Pt-chitosan Composite[J].Acta Chim Sin,2008,66:1676-1680 (in Chinese).闵丽根,袁若,柴雅琴,等.基于纳米金与碳纳米管-纳米铂-壳聚糖纳米复合物固定癌胚抗原免疫传感器的研究[J].化学学报,2008,66:1676-1680. |
| [35] | Nakamura N,Lim T K,Jeong J M,et al.Flow Immunoassay for Detection of Human Chorionic Gonadotrophin Using a Cation Exchange Eesin Packed Capillary Column[J].Anal Chim Acta,2001,439:125-130. |
| [36] | Yan F,Zhou J N,Lin J H,et al.Flow Injection Immunoassay for Carcinoembryonic Antigen Combined with Time-resolved Fluorometric Detection[J].J Immunol Methods,2005,305:120-127. |
| [37] | Zhong W W.Nanomaterials in Fluorescence-based Biosensing[J].Anal Bioanal Chem,2009,394:47-59. |
| [38] | Hong B,Kang K A.Biocompatible,Nanogold-particle Fluorescence Enhancer for Fluorophore Mediated,Optical Immunosensor[J].Biosens Bioelectron,2006,21 (7):1333-1338. |
| [39] | Lin J H,Ju H X.Electrochemical and Chemiluminescent Immunosensors for Tumor Markers[J].Biosens Bioelectron,2005,20(8):1461-1470. |
| [40] | Jie G F,Liu P,Zhang S S.Highly Enhanced Electrochemiluminescence of Novel Gold/silica/CdSe-CdS Nanostructures for U ltrasensitive Immunoaasay of Protein Tumor Marker[J].Chem Commun,2010,46 (8):1323-1325. |
| [41] | Chou S F,Hsu W L,Hwang J M,et al.Development of an Immunosensor for Human Ferritin,a Nonspecific Tumor Marker,Based on Surface Plasmon Resonance[J].Biosens Bioelectron,2004,19:999-1005. |
| [42] | Yu F,Knoll W.Immunosensor with Self-Referencing Based on Surface Plasmon Diffraction[J].Anal Chem,2004,76:1971-1975. |
| [43] | Corso C D,Stubbs D D,Lee S H,et al.Real-time Detection of Mesothelin in Pancreatic Cancer Cell Line Supernatant Using an Acoustic Wave Immunosensor[J].Cancer Detect Prev,2006,30 (2):180-187. |
| [44] | Zhang B,Mao Q G,Zhang X,et al.A Novel Piezoelectric Quartz Micro-array Immunosensor Based on Self-assembled Monolayer for Determination of Human Chorionic Gonadotropin[J].Biosens Bioelectron,2004,19:711-720. |
| [45] | Kim N,Kim D K,Cho Y J.Development of Indirect-competitive Quartz Crystal Microbalance Immunosensor for C-Reactive Protein[J].Sens Actuat B-Chem,2009,143(1):444-448. |
| [46] | Matsumoto K,Yuan J L,Wang G L,et al.Simultaneous Determination of α-Fetoprotein and Carcinoembryonic Antigen in Human Serum by Time-Resolved Fluoroimmunoassay[J].Anal Biochem,1999,276:81-87. |
| [47] | Song S P,Li B,Hu J,et al.Simultaneous Multianalysis for Tumor Markers by Antibody Fragments Microarray System[J].Anal Chim Acta,2004,510:147-152. |
| [48] | Wu H,Zhang Z,Fu Z F,et al.A Disposable Two-throughput Electrochemical Immunosensor Chip for Simultaneous Multianalyte Determination of Tumor Markers[J].Biosens Bioelectron,2007,23:114-120. |
| [49] | Fu Z F,Yan F,Liu H,et al.Channel-resolved Multianalyte lmmunosensing System for Flow-through Chemiluminescent Detection of α-Fetoprotein and Carcinoembryonic Antigen[J].Biosens Bioelectron,2008,23(7):1063-1069. |
| [50] | Wilson M S.Electrochemical Immunosensors for the Simultaneous Detection of Two Tumor Markers[J].Anal Chem,2005,77:1496-1502. |
| [51] | Wilson M S,Nie W.Electrochemical Multianalyte Immunoassays Using an Array-Based Sensor[J].Anal Chem,2006,78:2507 -2513. |
| [52] | Wilson M S,Nie W.Multiplex Measurement of Seven Tumor Markers Using an Electrochemical Protein Chip[J].Anal Chem,2006,78:6476-6483. |
| [53] | Qureshi A,Niazi J H,Kallempudi S,et al.Label-free Capacitive Biosensor for Sensitive Detection of Multiple Biomarkers Using Gold Interdigitated Capacitor Arrays[J].Biosens Bioelectron,2010,25 (10):2318 -2323. |
| [54] | Hamula C L A,Guthrie J W,Zhang H Q,et al.Selection and Analytical Applications of Aptamers[J].TRAC-Trends Anal Chem,2006,25 (7):681-691. |
| [55] | Willner M Zayats.Electronic Aptamer-Based Sensors[J].Angew Chem Int Ed Engl,2007,46:6408-6418. |
| [56] | Mairal T,Cengiz Ozalp V,Lozano Sanchez P,et al.Aptamers:Molecular Tools for Analytical Applications[J].Anal Bioanal Chem,2008,390:989-1007. |
| [57] | Tombelli S,Minunni M,Mascini M.Analytical Applications of Aptamers[J].Biosens Bioelectron,2005,20:2424-2434. |
| [58] | Rodriguez M C,Kawee A,Wang J.Aptamer Biosensor for Label-free Impedance Spectroscopy Detection of Proteins Based on Recognition-induced Switching of the Surface Charge[J].Chem Commun,2005,34:4267-4269. |
| [59] | Liao W,Cui X T.Reagentless Aptamer Based Impedance Biosensor for Monitoring a Neuro-inflammatory Cytokine PDGF[J].Biosen Bioelectron,2007,23:218-224. |
| [60] | Kwon O S,Park S J,Jang J.A High-performance VEGF Aptamer Functionalized Polypyrrole Nanotube Biosensor[J].Biomaterials,2010,31:4740-4747. |
| [61] | Xiao Y,Lubin A A,Heeger A J,et al.Label-Free Electronic Detection of Thrombin in Blood Serum by Using an AptamerBased Sensor[J].Angew Chem Int Ed Engl,2005,44:5456-5459. |
| [62] | Radi A E,Acero Sanchez J L,Baldrich E,et al.Reagentless,Reusable,Ultrasensitive Electrochemical Molecular Beacon Aptasensor[J].JAm Chem Soc,2006,128:117-124. |
| [63] | Radi A E,O_Sulivan C K.Aptamer Conformational Switch as Sensitive Electrochemical Biosensor for Potassium Ion Recognition[J].Chem Commun,2006,32:3432-3434. |
| [64] | Zuo X,Song S,Zhang J,et al.A Target-Responsive Electrochemical Aptamer Switch(TREAS) for Reagentless Detection of Nanomolar ATP[J].J Am Chem Soc,2007,129:1042-1043. |
| [65] | Fan C H,Plaxco K W,Heeger A J.Electrochemical Interrogation of Conformational Changes as a Reagentless Method for the Sequence-specific Detection of DNA[J].Proc Natl Acad Sci,2003,100:9134-9137. |
| [66] | Zhou L,Ou L J,Chu X,et al.Aptamer-Based Rolling Circle Amplification:A Platform for Electrochemical Detection of Protein[J].A nal Chem,2007,79:7492-7500. |
| [67] | Huang Y,Nie X M,Gan S L,et al.Electrochemical Immunosensor of Platelet-derived Growth Factor with Aptamer-primed Polymerase Amplification[J].Anal Biochem,2008,382:16-22. |
| [68] | Jin Y,Yao X,Liu Q,et al.Hairpin DNA Probe Based Electrochemical Biosensor Using Methylene Blue as Hybridization Indicator[J].Biosens Bioelectron,2007,22:1126-1130. |
| [69] | Zhang D D,Peng Y G,Qi H L,et al.Label-free Electrochemical DNA Biosensor Array for Simultaneous Detection of the HIV-1 and HIV-2 Oligonucleotides Incorporating Different Hairpin-DNA Probes and Redox Indicator[J].Biosens Bioelectron,2010,25(5):1088-1094. |
| [70] | Mir M,Vreeke M,Katakis L.Different Strategies to Develop an Electrochemical Thrombin Aptasensor[J].Electrochem Commun,2006,8 (3):505-511. |
| [71] | Numnuam A,Chumbimuni-Torres K Y,Xiang Y,et al.Aptamer-Based Potentiometric Measurements of Proteins Using IonSelective Microelectrodes[J].Anal Chem,2008,80 (3):707-712. |
| [72] | Hansen J A,Wang J,Kawde A N,et al.Quantum-Dot/Aptamer-Based Ultrasensitive Multi-Analyte Electrochemical Biosensor[J].J Am Chem Soc,2006,128(7):2228-2229. |
| [73] | Polsky R,Gill R,Kaganovsky L,et al.Nucleic Acid-Functionalized Pt Nanoparticles:Catalytic Labels for the Amplified Electrochemical Detection of Biomolecules[J].Anal Chem,2006,78:2268-2271. |
| [74] | He P,Shen L,Cao Y,et al.Ultrasensitive Electrochemical Detection of Proteins by Amplification of Aptamer-Nanoparticle Bio Bar Codes[J].Anal Chem,2007,79:8024-8029. |
| [75] | Li X M,Xia J P,Li W,et al.Multianalyte Electrochemical Biosensor Based on Aptamer-and Nanoparticle-Integrated BioBarcode Amplification[J].Chem-An Asian J,2010,5(2):294-300. |
| [76] | Velasco-Garcia M N,Missailidis S.New Trends in Aptamer-based Electrochemical Biosensors[J].Gene Ther Mol Biol,2009,13(1):1-10. |
| [77] | Hianik T,Wang J.Electrochemical Aptasensors-Recent Achievements and Perspectives[J].Electroanalysis,2009,21(11):1223-1235. |
| [78] | Mao X,Xu H,Zeng Q X,et al.Molecular Beacon-functionalized Gold nanoparticles as Probes in Dry-reagent Strip Biosensor for DNA Analysis[J].Chem Commun,2009,21:3065-3067. |
| [79] | Liu G D,Mao X,Phillips J A,et al.Aptamer-Nanoparticle Strip Biosensor for Sensitive Detection of Cancer Cells[J].Anal Chem,2009,81 (24):10013-10018. |
| [80] | Lee S J,Youn B S,Park J W,et al.ssDNA Aptamer-Based Surface Plasmon Resonance Biosensor for the Detection of Retinol Binding Protein 4 for the Early Diagnosis of Type 2 Diabetes[J].Anal Chem,2008,80(8):2867-2873. |
| [81] | Huang C C,Huang Y F,Cao Z,et al.Aptamer-Modified Gold Nanoparticles for Colorimetric Determination of Platelet-Derived Growth Factors and Their Receptors[J].Anal Chem,2005,77:5735-5741. |
| [82] | Medley C D,Smith J E,Tang Z W,et al.Gold Nanoparticle-Based Colorimetric Assay for the Direct Detection of Cancerous Cells[J].Anal Chem,2008,80:1067-1072. |
| [83] | WANG Guoqing,CHEN Zhaopeng,CHEN Lingxin.Aptamer-Nanoparticle-Based Optical Probes[J].Prog Chem,2010,22:489-499 (in chinese).王国庆,陈兆鹏,陈令新.基于适体和纳米粒子的光学探针[J].化学进展,2010,22:489-499. |
| [84] | Huang C C,Chiu S H,Huang Y F,et al.Aptamer-Functionalized Gold Nanoparticles for Turn-On Light Switch Detection of Platelet-Derived Growth Factor[J].Anal Chem,2007,79:4798-4804. |
| [85] | Bagalkot V,Zhang L F,Levy-Nissenbaum E,et al.Quantum Dot-Aptamer Conjugates for Synchronous Cancer Imaging,Therapy,and Sensing of Drug Delivery Based on Bi-Fluorescence Resonance Energy Transfer[J].Nano Lett,2007,7:3065-3070. |
| [86] | Zhang J,Qi H L,Li Y,et al.Electrogenerated Chemiluminescence DNA Biosensor Based on Hairpin DNA Probe Labeled with Ruthenium Complex[J].Anal Chem,2008,80:2888 -2894. |
| [87] | Huang H P,Zhu J J.DNA Aptamer-based QDs Electrochemiluminescence Biosensor for the Detection of Thrombin[J].Biosens Bioelectron,2009,25 (4):927-930. |
| [88] | Pollet J,Delport F,Janssen K P F,et al.Fiber Optic SPR Biosensing of DNA Hybridization and DNA Protein Interactions[J].Biosens Bioelectron,2009,25(4):864-869. |
| [89] | Tombelli S,Minunni M,Luzi E,et al.Aptamer-based Biosensors for the Detection of HIV-1 Tat Protein[J].Bioelectrochemistry,2005,67:135-141. |
| [90] | Hianik T,Ostatna V,Zajacova Z,et al.Detection of Aptamer Protein Interactions Using QCM and Electrochemical Indicator Methods[J].Bioorg Med Chem Lett,2005,15:291-295. |
| [91] | Savran C A,Knudsen S M,Ellington A D,et al.Micromechanical Detection of Proteins Using Aptamer-Based Receptor Molecules[J].Anal Chem,2004,76:3194-3198. |
| [92] | Hwang K S,Lee S M,Eom K,et al.Nanomechanical Microcantilever Operated in Vibration Modes with Use of RNA Aptamer as Receptor Molecules for Label-free Detection of HCV Helicase[J].Biosens Bioelectron,2007,23:459-465. |
| [93] | Yang S M,Chang C,Yin T I,et al.DNA Hybridization Measurement by Self-sensing Piezoresistive Microcantilevers in CMOS Biosensor[J].Sens Actuat B-Chem,2008,130 (2):674-681. |
| [94] | Yao C Y,Qi Y Z,Zhao Y H,et al.Aptamer-based Piezoelectric Quartz Crystal Microbalance Biosensor Array for the Quantification of IgE[J].Biosens Bioelectron,2009,24 (8):2499-2503. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%