Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
about
Recent advances in bioprinting and applications for biosensingInfluence of target concentration and background binding on in vitro selection of affinity reagentsPoint-of-Care Technologies for the Advancement of Precision Medicine in Heart, Lung, Blood, and Sleep Disorders.Novel molecular and nanosensors for in vivo sensingMultiplexed electrochemistry of DNA-bound metalloproteinsReal-time, aptamer-based tracking of circulating therapeutic agents in living animals.A reusable electrochemical proximity assay for highly selective, real-time protein quantitation in biological matrices.Optical Gratings Coated with Thin Si3N4 Layer for Efficient Immunosensing by Optical Waveguide Lightmode SpectroscopyThermodynamic basis for engineering high-affinity, high-specificity binding-induced DNA clamp nanoswitches.By-product formation in repetitive PCR amplification of DNA libraries during SELEX.Aptamer technology for tracking cells' status & function.Quantifying Aptamer-Protein Binding via Thermofluorimetric Analysis.Protein quantification using controlled DNA melting transitions in bivalent probe assemblies.Förster resonance energy transfer: Role of diffusion of fluorophore orientation and separation in observed shifts of FRET efficiency.A Modular, DNA-Based Beacon for Single-Step Fluorescence Detection of Antibodies and Other Proteins.In vitro selection of shape-changing DNA nanostructures capable of binding-induced cargo release.Real-time measurement of small molecules directly in awake, ambulatory animals.Recent advances and achievements in nanomaterial-based, and structure switchable aptasensing platforms for ochratoxin A detection.Rational design of a structure-switching DNA aptamer for potassium ions.Detection of thrombin using an excimer aptamer switch labeled with dual pyrene molecules.Triplex DNA Nanostructures: From Basic Properties to Applications.The interplay between effector binding and allostery in an engineered protein switch.Intraduplex DNA-mediated electrochemistry of covalently tethered redox-active reporters.Rational design of allosteric inhibitors and activators using the population-shift model: in vitro validation and application to an artificial biosensor.Using Nature's "Tricks" To Rationally Tune the Binding Properties of Biomolecular Receptors.Opening windows on new biology and disease mechanisms: development of real-time in vivo sensors.An ultrasensitive and incubation-free electrochemical immunosensor using a gold-nanocatalyst label mediating outer-sphere-reaction-philic and inner-sphere-reaction-philic species.Nanoscale characterization of DNA conformation using dual-color fluorescence axial localization and label-free biosensing.
P2860
Q26829223-29C61766-17BC-43DE-A1C6-41FBC1AD70B7Q28482831-2DEB48E2-ED6E-4F20-AA67-30B8C3FC546BQ30374876-8FE955CC-C9B0-4C9A-991E-2AFC3D08CE26Q30450856-095EB030-9C31-4ABF-A9F8-F15D6DFB233AQ30658159-6228820B-54A5-4E15-9A20-F9B0C327B022Q33570021-A24647DF-70E6-4B20-8F80-D003A86E30C2Q34321009-E52ED5AA-C0D2-4F33-88BA-BC4D8272A56AQ34680839-11325608-8CD0-40CC-A4C4-F0C23B635E20Q34798289-8D7A6F88-E645-41B5-9512-C5A27EBD18A7Q35503441-9340F2FD-81F0-4174-86BF-4612E40EE2F1Q35673895-950F5E11-1738-4C7A-AB19-41288413565FQ36034510-C7ECF176-C905-4033-8D39-9E483DD24D1CQ36146845-C24CCD05-BAE6-4C59-ADA1-4DB3DC66CA80Q36380127-6A7B66C3-BD64-43E6-9E36-783C778EBA49Q36590891-4BBBF4C2-A163-4C64-AB9F-B82BB5F6C6D1Q37573754-B30EC122-900A-4092-950A-8031A835D2A1Q37612542-8E8C91BE-3182-43DB-92DD-427D600E7488Q38160678-71D01B66-618C-4E74-AC0B-CFD8F80F6009Q38303315-C057B296-9376-4C43-8189-EE78826AFCD1Q38313657-589DDE67-2DA3-47D8-974A-52A2D0058612Q38690677-43DC2308-608F-444F-8D2E-E0E221FC98B0Q39703543-550BB3E8-E497-4415-90CD-DD72FB4C5D6AQ41887189-E429DF96-C44B-4B9A-A82D-DFEBE8695B9DQ42413494-14E17263-C8B1-44D3-86DE-BB16F20CD8B1Q42610711-F7CEBACC-B6A2-4591-8FCC-EB17D325833CQ45903739-1E78BFE8-9533-403C-A21E-4A5F5481B458Q46567945-BFB93693-F7B1-4EA6-9343-5F58AF31E1A9Q53406062-0FD3C210-DF43-43C4-834F-1DD37795485D
P2860
Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
@en
type
label
Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
@en
prefLabel
Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
@en
P2860
P1476
Switch-based biosensors: a new approach towards real-time, in vivo molecular detection
@en
P2093
P2860
P356
10.1016/J.TIBTECH.2010.10.005
P577
2010-11-23T00:00:00Z