about
Improved cellular specificity of plasmonic nanobubbles versus nanoparticles in heterogeneous cell systems.The in vivo performance of plasmonic nanobubbles as cell theranostic agents in zebrafish hosting prostate cancer xenograftsTunable plasmonic nanobubbles for cell theranosticsPlasmonic nanobubbles as tunable cellular probes for cancer theranosticsQuantitative imaging of single mRNA splice variants in living cellsSelf-assembled gold nanoparticle molecular probes for detecting proteolytic activity in vivo.Gold nanoparticles for biology and medicine.Tailoring DNA structure to increase target hybridization kinetics on surfaces.Relationships between Poly(ethylene glycol) Modifications on RNA-Spherical Nucleic Acid Conjugates and Cellular Uptake and Circulation Time.Intracellular mRNA regulation with self-assembled locked nucleic acid polymer nanoparticlesIntracellular fate of spherical nucleic acid nanoparticle conjugates.Multifunctional oval-shaped gold-nanoparticle-based selective detection of breast cancer cells using simple colorimetric and highly sensitive two-photon scattering assay.Nanoparticle Probes for the Detection of Cancer Biomarkers, Cells, and Tissues by FluorescenceGold nanoparticles in chemical and biological sensing.Using DNA to Link Gold Nanoparticles, Polymers and Molecules: a Theoretical Perspective.Multiplexed nanoflares: mRNA detection in live cells.Spherical nucleic acids as a divergent platform for synthesizing RNA-nanoparticle conjugates through enzymatic ligation.Liposomal spherical nucleic acids.Selective enhancement of nucleases by polyvalent DNA-functionalized gold nanoparticles.Nucleic Acid-directed Self-assembly of Multifunctional Gold Nanoparticle Imaging Agents.Detection of Intracellular Gene Expression in Live Cells of Murine, Human and Porcine Origin Using Fluorescence-labeled Nanoparticles.Quantification and real-time tracking of RNA in live cells using Sticky-flaresMultifunctional Fe₃O₄@polydopamine core-shell nanocomposites for intracellular mRNA detection and imaging-guided photothermal therapyDetection of GNAQ mutations and reduction of cell viability in uveal melanoma cells with functionalized gold nanoparticles.Theranostic Upconversion Nanobeacons for Tumor mRNA Ratiometric Fluorescence Detection and Imaging-Monitored Drug Delivery.Biodegradable DNA-Brush Block Copolymer Spherical Nucleic Acids Enable Transfection Agent-Free Intracellular Gene RegulationAntisense peptide nucleic acid-functionalized cationic nanocomplex for in vivo mRNA detection.Imaging mRNA expression levels in living cells with PNA·DNA binary FRET probes delivered by cationic shell-crosslinked nanoparticles.Engineering of switchable aptamer micelle flares for molecular imaging in living cells.Gold Nanoparticles for In Vitro Diagnostics.Theranostic DNAzymes.Nucleic acid fluorescent probes for biological sensing.Recent advances in fluorescent nucleic acid probes for living cell studies.Gold nanoparticles and fluorescently-labelled DNA as a platform for biological sensing.Gold nanoparticle conjugates: recent advances toward clinical applications.Nanoparticle-based detection of cancer-associated RNA.Smart dual-mode fluorescent gold nanoparticle agents.Aptamer-based biosensors for biomedical diagnostics.Application of gold nanoparticles in biomedical and drug delivery.What controls the hybridization thermodynamics of spherical nucleic acids?
P2860
Q30468502-ACE94681-C561-4860-851F-5B89A681AB9DQ30473892-BAA464DE-35FC-409D-B41F-B92DE13474E1Q30475863-72C01AE2-0DB9-41A6-8C6F-83A248BD5E72Q30476207-19930496-80F2-446B-BDA0-C2A76B98FE69Q30649763-5F1937E8-A107-4A31-B30E-7B3160540DD3Q33530511-0D60A8C9-0222-47DF-9A54-D555C93DD36AQ33558781-D64FADC6-5D60-4F20-802F-770B37FFBC2EQ33648421-C6825BCE-CA7B-4759-9419-CBFB0BE2A100Q33713687-3D515088-9C24-4F6E-9E32-938339603B89Q33715958-3D8ED2C1-8682-4A91-BDAD-640D65FC0845Q33715962-6E757B22-C8CE-47FD-8EA7-EF9C49F989ADQ33749369-C31CCC7C-095F-4607-8E9D-2D29617826B9Q33759991-A3833E56-BF81-47D9-9FB2-4B85CEF8C8A7Q33915917-63116931-9BE4-43A4-8DB1-ABB34BD68E47Q33947552-D4AF1DCD-E105-415B-A65C-76DAF9E0351BQ34144523-A416D911-C0DA-4C01-824A-3A219312A6B0Q34239177-15D0C3AE-4D03-4EE0-A60F-017C395E133AQ34789560-1362B8D6-30B7-4371-87BF-FFC460C83D3CQ34846505-B7DC949F-4329-4BC2-AA50-340017C03149Q34995186-10F9FF4C-F651-4634-9911-40066F2AA72FQ35864485-4951E5FD-6760-4E96-9C59-06B67C70CEB0Q35946076-EDBFCB5E-DA63-4670-BF0D-9D4B23282245Q36041538-885090C1-EB58-41BF-AFB5-DD0832F6838CQ36100681-24396724-29A1-4248-8D09-2BC44C0C9FB8Q36137856-BD1D7457-8386-417E-8034-1462EDFCF083Q36455950-6E1D1EDC-6545-4398-8266-DF65632B3DD5Q36801243-7AC1AAC3-5DE6-4BBA-AA74-EAECE716DCEDQ36943544-D9683F4C-1B98-400E-8960-892402AA6B9CQ37212469-6BE23701-065A-45FB-B44A-A5AA30DDDD99Q37580069-D91A4262-632C-42DC-8ED8-62CC23375AA3Q37738245-339E6B27-2BD1-40C8-916D-69026F2B74EFQ38059271-5CDF1D3F-5E01-46BD-BC81-024B89D2FE98Q38060037-C94377E4-4B72-40B3-BD22-16028620FD5EQ38132042-964FFCE9-BB19-4419-8644-2940E50C628AQ38190087-2DCC9D27-AB4D-4B42-B8C0-18ADB2CCE280Q38201412-4377173A-6AFD-455E-8644-C212BFF754DEQ38203214-36ABA682-97EC-45FE-9610-B030B602D699Q38204726-8ECFAB1D-B00B-4EB0-AF24-03D96CC96ABAQ38250373-8F598372-97E1-4322-8188-A97AEC0B82A9Q38300665-2F3F2D87-2A7C-4201-8D2C-FA5EBD6E4C69
P2860
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Nano-flares for mRNA regulation and detection.
@en
type
label
Nano-flares for mRNA regulation and detection.
@en
prefLabel
Nano-flares for mRNA regulation and detection.
@en
P2093
P2860
P356
P1433
P1476
Nano-flares for mRNA regulation and detection.
@en
P2093
Andrew E Prigodich
Brandon C Lane
David A Giljohann
Matthew D Massich
P2860
P304
P356
10.1021/NN9003814
P407
P577
2009-08-01T00:00:00Z