An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum.
about
Selection and Biosensor Application of Aptamers for Small MoleculesAptamers in analytics.Hydrogel-Forming Microneedle Arrays Allow Detection of Drugs and Glucose In Vivo: Potential for Use in Diagnosis and Therapeutic Drug MonitoringResponsive DNA-based hydrogels and their applications.Aptamer in bioanalytical applications.Design strategies for aptamer-based biosensorsAptamers and their biological applicationsFunctional nucleic acid sensorsExploiting binding-induced changes in probe flexibility for the optimization of electrochemical biosensorsAptamer based electrochemical sensors for emerging environmental pollutantsRe-engineering aptamers to support reagentless, self-reporting electrochemical sensors.Blank peak current-suppressed electrochemical aptameric sensing platform for highly sensitive signal-on detection of small moleculeAn isothermal system that couples ligand-dependent catalysis to ligand-independent exponential amplificationReagentless measurement of aminoglycoside antibiotics in blood serum via an electrochemical, ribonucleic acid aptamer-based biosensor.Monitoring cooperative binding using electrochemical DNA-based sensors.Using azobenzene incorporated DNA aptamers to probe molecular binding interactions.Fabrication of electrochemical-DNA biosensors for the reagentless detection of nucleic acids, proteins and small molecules.RNA as a stable polymer to build controllable and defined nanostructures for material and biomedical applicationsSequence and temperature dependence of the end-to-end collision dynamics of single-stranded DNAQuantitation of femtomolar protein levels via direct readout with the electrochemical proximity assay.The length and viscosity dependence of end-to-end collision rates in single-stranded DNAApplication and analysis of structure-switching aptamers for small molecule quantification.Simultaneous detection of cell-secreted TNF-α and IFN-γ using micropatterned aptamer-modified electrodes.Comparing the properties of electrochemical-based DNA sensors employing different redox tags.Fabrication of pRNA nanoparticles to deliver therapeutic RNAs and bioactive compounds into tumor cells.Genetically encoded fluorescent sensors for studying healthy and diseased nervous systems.Real-time measurement of small molecules directly in awake, ambulatory animals.Ratiometric electrochemical proximity assay for sensitive one-step protein detection.Application of thin metal film elements in bioanalysis.Fundamentals and application of ordered molecular assemblies to affinity biosensing.Expansion of the aptamer library from a "natural soup" to an "unnatural soup".Optimisation and Characterisation of Anti-Fouling Ternary SAM Layers for Impedance-Based Aptasensors.Heterogeneous Electrochemical Aptamer-Based Sensor Surfaces for Controlled Sensor Response.Surface state of the dopamine RNA aptamer affects specific recognition and binding of dopamine by the aptamer-modified electrodes.Rationally designing aptamer sequences with reduced affinity for controlled sensor performance.Electroanalysis of pM-levels of urokinase plasminogen activator in serum by phosphorothioated RNA aptamer.Aptasensor based on triplex switch for SERS detection of cytochrome c.Competitive assay for theophylline based on an abasic site-containing DNA duplex aptamer and a fluorescent ligand.Folding-based electrochemical biosensors: the case for responsive nucleic acid architectures.Reagentless, electrochemical approach for the specific detection of double- and single-stranded DNA binding proteins.
P2860
Q26744467-A1202C14-46CA-4182-BBA1-9E6088DE908DQ28075607-1E880CA2-745E-4A6B-BC56-BAD8D55CF47BQ28551929-3AFA8A50-A8B8-47DF-848E-401F5C46E5C1Q30409014-C53126CB-B40F-464A-9E53-4529A3A5411BQ30466572-0D477745-07E1-494B-B952-1B6B51197155Q30469779-58243008-700E-4DAA-A707-793B4C2709A5Q30470240-E2E7A695-51B4-4E9B-B0F0-F99829A62ADFQ30481633-8324CFAB-523F-424F-B86E-609B5EC125CBQ33576159-15C7965C-BEBB-41E1-825C-737039843355Q33809606-708FBAAE-CC3B-43CB-9490-B694CC9A00ACQ33816109-3E54AA2A-9513-4817-8670-865F2A1A430EQ34298237-8FAE28C4-5032-4236-8E6E-74578D6E43F1Q34625150-636A1B18-3BA3-4BF6-98CA-39FA7253931BQ34858947-EEB4BDBF-BC8C-4009-9062-1E74FD8C2AE0Q35001229-5E3F1593-63A1-4F9E-809B-2E87C1021167Q35189968-14F971CE-C0A5-4B28-AE63-75CE49074CA5Q35391703-8BDF0232-B7D8-4A5A-B125-64195484061EQ36449335-F5AF560F-FC79-4475-8685-B362301BD106Q36903597-CECA1C45-3DFD-4D40-A34F-838C737BBE44Q37192636-3D7B5AF3-5E57-493F-881C-1FB25E1E2DEEQ37263365-B0058FFF-ABA0-47F3-B480-B39A73985F82Q37351674-BECCDA7F-09E8-4D31-8C37-8793B360D86EQ37393525-994276CB-BD92-483E-A62B-E1DE77387AC7Q37440039-3FEA2069-89C6-4A1F-A179-8CE468CA23D6Q37442480-2975B8FA-FB93-4CB0-BEC6-90DB544958BFQ37492342-EE79F3CC-9F3E-41F0-840C-2F6E32ABB3DBQ37612542-E05A420C-6D9A-44A5-BD0F-1616DE1F286CQ37631640-5DBA0803-60FC-4625-AA8E-E69F12FBF3E5Q37899105-1C2947A7-BA60-4CC0-8CC5-5593E1F82697Q37959261-89C15A11-E2F6-494A-91D0-4C3619485C96Q38071194-E53638AF-B766-4D12-A855-C47D0410A8D1Q38296254-A5C0619F-0B9E-4FCF-98D8-7F6DCA686DA4Q38298800-3412FB1D-37BA-45DE-BD68-BA92323F22C7Q38299721-84841945-77F0-4F7E-8C20-7D715FF78AB3Q38300051-E656B53B-C976-43CE-B1DB-BD4E908AAF94Q38301482-F4B05B64-C568-4910-9576-CF9AF08CC220Q38320500-102E4F96-F291-4EEE-B679-32CB1946258DQ38322383-41549E73-6868-42E0-961B-6ED779CC3B49Q38346055-339F8DC7-6B00-4B26-9E64-E37CC507250CQ38356800-7F362410-EC39-4A65-ABA0-F415F4EF4851
P2860
An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum.
@en
type
label
An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum.
@en
prefLabel
An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum.
@en
P356
P1476
An RNA aptamer-based electrochemical biosensor for detection of theophylline in serum
@en
P2093
Eva M Olsen
Kurt V Gothelf
P304
P356
10.1021/JA711326B
P407
P577
2008-03-07T00:00:00Z