Triggered amplification by hybridization chain reaction.
about
Higher-order cellular information processing with synthetic RNA devicesStructural DNA nanotechnology: state of the art and future perspectiveChallenges and opportunities for structural DNA nanotechnologyGold Nanoparticles for Diagnostics: Advances towards Points of CareStrength in numbers: quantitative single-molecule RNA detection assaysDNA based identification of medicinal materials in Chinese patent medicinesBead array direct rRNA capture assay (rCapA) for amplification free speciation of Mycobacterium culturesIntegrating a DNA Strand Displacement Reaction with a Whispering Gallery Mode Sensor for Label-Free Mercury (II) Ion DetectionHighly sensitive detection of lipopolysaccharides using an aptasensor based on hybridization chain reaction.Integrating DNA strand-displacement circuitry with DNA tile self-assemblyNext-generation in situ hybridization chain reaction: higher gain, lower cost, greater durability.Design principles for ligand-sensing, conformation-switching ribozymes.Antibody-powered nucleic acid release using a DNA-based nanomachineA Fluorescence in Situ Hybridization Method To Quantify mRNA Translation by Visualizing Ribosome-mRNA Interactions in Single Cells.Diagnostic applications of nucleic acid circuitsMolecular Techniques for the Detection of Organisms in Aquatic Environments, with Emphasis on Harmful Algal Bloom Species.Sequential self-assembly of DNA functionalized dropletsDiagnosing the miR-141 prostate cancer biomarker using nucleic acid-functionalized CdSe/ZnS QDs and telomerase.Nucleic acid based logical systems.Robustness and modularity properties of a non-covalent DNA catalytic reactionA modular tyrosine kinase deoxyribozyme with discrete aptamer and catalyst domains.Engineering self-contained DNA circuit for proximity recognition and localized signal amplification of target biomoleculesExquisite sequence selectivity with small conditional RNAsNucleic acid sequence design via efficient ensemble defect optimization.Shaping up nucleic acid computation.Selective cell death mediated by small conditional RNAsFrom genes to machines: DNA nanomechanical devicesFunctional nucleic acid-based sensors for heavy metal ion assays.Mathematical tools to optimize the design of oligonucleotide probes and primers.Toehold switches: de-novo-designed regulators of gene expression.Complex reconfiguration of DNA nanostructures.Highly sensitive DNA detection using cascade amplification strategy based on hybridization chain reaction and enzyme-induced metallization.DNA nanostructures: a shift from assembly to applications.Isothermal amplified detection of DNA and RNA.Rational, modular adaptation of enzyme-free DNA circuits to multiple detection methodsImmuno-hybridization chain reaction for enhancing detection of individual cytokine-secreting human peripheral mononuclear cellsA Nonenzymatic Hairpin DNA Cascade Reaction Provides High Signal Gain of mRNA Imaging inside Live Cells.Proximity-dependent initiation of hybridization chain reactionConfiguring robust DNA strand displacement reactions for in situ molecular analysesA Signal-Passing DNA-Strand-Exchange Mechanism for Active Self-Assembly of DNA Nanostructures.
P2860
Q24647524-0FC53450-A2BE-45C3-81F6-9E019A5DC3EDQ26999856-F642E0F9-00F4-491B-91FA-5B86F0E802B5Q27025958-E932701F-F8E0-413A-A613-805667798CFBQ28077452-BB57C09C-C9CE-4CBE-93B0-6ECF6F14693EQ28081247-C1D9E8EA-E7AE-409E-BD7D-2595F34876A9Q28710364-99BF3F1A-0982-4310-9188-53BC5CFD6BBCQ28731573-DC04FAC4-42FD-43AB-B67C-56A89D3E19C8Q28830866-14B3B6D3-F0D6-401C-B776-5FDBF9821A1FQ30378659-97AF1A01-646B-4CE9-8ECC-E1138D65570AQ30541383-EDF6E8DE-BA3A-4F73-8799-9B1DFDD99BE2Q30580012-575A24FF-D4D0-4992-B0D6-D7C73CF264ABQ33521297-B6BDD245-6AE0-4DDF-AAD2-D1750E956864Q33654305-DA64BCF8-CF25-4E4B-B0D2-336134FAE807Q33731183-F2188D3F-8B87-4435-9666-E16442769DEEQ33777184-425D7DCE-BAC0-40DA-835B-507D043A310FQ33798216-CFA28B13-D2D1-49D3-A725-E3C8811DC38CQ33808045-DBF39396-C16D-44EE-94EB-418AD3FF75B1Q33855705-4D02F83A-7E32-46B4-AC50-4BC4A97B54CEQ33908479-EC33370E-6F88-4E11-91C6-6018745C93B2Q33959358-6F55CD13-4C25-400C-AC10-369CC691D1F5Q34018564-7B83FBBF-9FA1-454F-9A33-158D1DC8A90FQ34044502-C08D959B-993B-4B00-9310-9C34EAA442A6Q34050553-0FC45B03-03FD-4A63-BC97-F3E2124BB71BQ34131851-5D8C6D03-5251-4DED-9C3D-23B98E2B0CE3Q34143014-8B1DBC55-26CA-4AC1-8118-F4347A63A5DCQ34165425-BE423EDE-87B4-4F78-BF65-48B56B543F02Q34400829-2353FC71-E526-4C4D-86EF-8F56556DE424Q34445518-7272BD01-092D-4D01-ADCC-54DB4F98B151Q34445615-F8CF4E80-E7F6-4301-801C-3231E8CDE231Q34449117-9196CAF0-4391-4DD6-9DBC-3904DECB72C0Q34532308-6C80621B-DE2D-428C-916D-2BCB9F2C9FA4Q34771597-DEF93F4D-2465-42C5-87AD-30D55CF5D386Q35115883-1E7F367E-3EEC-452C-BFE0-8CCA88726D9FQ35124365-B197308F-DDCC-4A93-AD39-D114FCD55DDCQ35198375-04CD5EBB-D7BB-46F2-802E-52AEB0E18948Q35220317-1DB6CD30-3067-4F69-A11C-F7738BD0564EQ35596347-E6AFD905-518A-49EB-B46F-54F51AE26900Q35660926-9EFA7D88-CDF9-425E-AD95-DE35D5DFD678Q35888827-7E98288C-6A0D-4243-8478-67E41611A54BQ35925319-40555278-C5E9-4D2B-8468-6F241AE1B222
P2860
Triggered amplification by hybridization chain reaction.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 October 2004
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Triggered amplification by hybridization chain reaction.
@en
Triggered amplification by hybridization chain reaction.
@nl
type
label
Triggered amplification by hybridization chain reaction.
@en
Triggered amplification by hybridization chain reaction.
@nl
prefLabel
Triggered amplification by hybridization chain reaction.
@en
Triggered amplification by hybridization chain reaction.
@nl
P2860
P356
P1476
Triggered amplification by hybridization chain reaction.
@en
P2093
Niles A Pierce
Robert M Dirks
P2860
P304
15275-15278
P356
10.1073/PNAS.0407024101
P407
P577
2004-10-18T00:00:00Z