Single-molecule tracing on a fluidic microchip for quantitative detection of low-abundance nucleic acids.
about
Homogeneous point mutation detection by quantum dot-mediated two-color fluorescence coincidence analysisAnalysis of single nucleic acid molecules in micro- and nano-fluidicssmFRET studies of the 'encounter' complexes and subsequent intermediate states that regulate the selectivity of ligand bindingEmerging technologies for salivaomics in cancer detectionStanding surface acoustic wave (SSAW)-based microfluidic cytometer.An acoustofluidic micromixer based on oscillating sidewall sharp-edges.Electrokinetic focusing and separation of mammalian cells in conductive biological fluids.Three-dimensional continuous particle focusing in a microfluidic channel via standing surface acoustic waves (SSAW).Microfluidic droplet sorting with a high frequency ultrasound beam.Discretely tunable optofluidic compound microlenses.Decoding circulating nucleic acids in human serum using microfluidic single molecule spectroscopy.A droplet-based, optofluidic device for high-throughput, quantitative bioanalysisA microfluidic approach for investigating the temperature dependence of biomolecular activity with single-molecule resolution.Saliva: an emerging biofluid for early detection of diseasesDNA diagnostics: nanotechnology-enhanced electrochemical detection of nucleic acids.Characterization of dark quencher chromophores as nonfluorescent acceptors for single-molecule FRET.Enzymatic incorporation of multiple dyes for increased sensitivity in QD-FRET sensing for DNA methylation detectionMicrofluidic means of achieving attomolar detection limits with molecular beacon probesMicrofluidic three-dimensional hydrodynamic flow focusing for the rapid protein concentration analysisOptical protein sensor for detecting cancer markers in saliva.Optofluidic Microsystems for Chemical and Biological AnalysisEvaluating the intracellular stability and unpacking of DNA nanocomplexes by quantum dots-FRETPath to bio-nano-information fusion.Cylindrical illumination confocal spectroscopy: rectifying the limitations of confocal single molecule spectroscopy through one-dimensional beam shapingDroplet microfluidics for amplification-free genetic detection of single cells.Bulk and single-molecule characterization of an improved molecular beacon utilizing H-dimer excitonic behaviorMS-qFRET: a quantum dot-based method for analysis of DNA methylationSimultaneous Non-invasive Analysis of DNA Condensation and Stability by Two-step QD-FRETSingle-pair fluorescence resonance energy transfer analysis of mRNA transcripts for highly sensitive gene expression profiling in near real time.Biosensors as rapid diagnostic tests for tropical diseases.System Integration - A Major Step toward Lab on a Chip.Capturing the genetic makeup of the active microbiome in situ.Detection of mRNA in living cells by double-stranded locked nucleic acid probes.Integration and application of vitrified collagen in multilayered microfluidic devices for corneal microtissue culture.Advances in single quantum dot-based nanosensors.Microparticles controllable accumulation, arrangement, and spatial shaping performed by tapered-fiber-based laser-induced convection flow.Focusing microparticles in a microfluidic channel with standing surface acoustic waves (SSAW).A simplified globally affordable experimental setup for monitoring DNA diagnosis by a QD-based technique.Pushing miRNA quantification to the limits: high-throughput miRNA gene expression analysis using single-molecule detection.Quantum-dots-FRET nanosensors for detecting unamplified nucleic acids by single molecule detection.
P2860
Q25255873-30A38578-1F23-45A5-807A-5BD84960E07CQ26773336-414B8ACE-74AC-442A-BD29-B7D43A48590AQ26864185-8F91F57A-2B33-43EF-B93E-6845072515EEQ28069566-4FFDF54C-43AA-4E83-844B-E5C5BF2C6335Q30417084-5C527CF8-94E8-456F-AB6B-7F1D585DC434Q30429012-1C505DA4-F5CD-403E-AB8F-9DC629B836D0Q30435192-C0B6DB37-03B4-444C-B6CB-62277BFC1FEDQ30439795-ED4A2F5C-6995-4FC7-9ABA-08E2494E8F68Q30451176-87FB6924-BF29-4310-A1AE-A96285E4F5C1Q31029070-F9476189-C6B6-4671-815F-EC166D92F434Q33549268-967C4B81-26EA-45AB-B277-CFA37BF1225BQ33598091-7CC3AEC1-51DA-4222-AE26-AA10863E9A89Q33730242-D987800B-DA2D-4B53-9D00-4B441DCCB1FAQ33815831-FD49656B-FEDE-450F-89C6-988161391598Q33878579-3D81621A-3E3E-4F93-9808-D91158BCBD0DQ34309373-436CFD2B-EF61-40D8-B448-CEC1FFA7962DQ34309815-C9A502B5-A4BB-402B-B201-ED3DB544F22CQ34397672-DC557B83-5CEC-4642-A95D-AABEDB329313Q34778567-18429C0C-DD5D-44A6-92AB-6ED0DDEEDF22Q34778599-A20AC509-9519-48BD-9233-7371181D829CQ35516390-0AB5D891-0D48-4A53-BFC4-811C1AF89A64Q35574622-9885B88B-F721-4412-A8C0-6E6A2ECD4A09Q36741008-828B13CC-8B33-400A-8357-E0F478816397Q36856457-685F1EBF-ADE5-40D2-A040-F3A81966C153Q36966142-6887804E-2DB7-46AB-BF11-7E8DE017DBB1Q37145609-FFD2EE88-F17A-4F60-AD31-61E96DCFEE55Q37287362-BD3F8AF6-2BE4-4EA2-9738-2D5404A2603FQ37352954-8C3FF325-926B-4068-9B1E-8FC2F5A65CA2Q37395996-F7AD5979-88AF-467E-BAD7-FEC2CCCA0B02Q37820662-22127AB4-51AC-4901-99C4-4BAB04F2D33BQ37879713-30BE45C4-A870-4E09-9C06-77D8F0B309ACQ38675712-C36761A3-4109-4C78-82A9-FE6CC7943A90Q39138791-FA39F325-FE27-47EC-9FC1-26AE5A719FFDQ42462058-BC382573-F91D-4415-B847-20C99576B5E7Q46254869-6D1A30BF-BF47-4B09-B223-90C758C55FF2Q47157607-6FE096FD-36C5-4F09-9C80-64EAD9505549Q47953454-B91389A8-ED91-4AA9-8DDD-7DF4EBD6403EQ49934176-892DDC22-043D-41EA-B599-4AA12110FD87Q50928595-5F5F2C8C-3AAD-4231-81EC-A414A8EBBC52Q50928598-E06BC5D0-12E4-492F-90C0-AE2054102507
P2860
Single-molecule tracing on a fluidic microchip for quantitative detection of low-abundance nucleic acids.
description
2005 nî lūn-bûn
@nan
2005 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@ast
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@en
type
label
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@ast
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@en
prefLabel
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@ast
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@en
P2093
P356
P1476
Single-molecule tracing on a f ...... f low-abundance nucleic acids.
@en
P2093
Chunyang Zhang
Pak Kin Wong
Tza-Huei Wang
Yahui Peng
P304
P356
10.1021/JA042642I
P407
P50
P577
2005-04-01T00:00:00Z