Targeted bioimaging and photodynamic therapy nanoplatform using an aptamer-guided G-quadruplex DNA carrier and near-infrared light.
about
Aptamer-Drug ConjugatesAptamers Selected by Cell-SELEX for Molecular Imaging.Facile surface functionalization of hydrophobic magnetic nanoparticles.On-demand droplet fusion: a strategy for stimulus-responsive biosensing in solutionNear-infrared light activated delivery platform for cancer therapyScintillating Nanoparticles as Energy Mediators for Enhanced Photodynamic TherapyFrom non-covalent binding to irreversible DNA lesions: nile blue and nile red as photosensitizing agents.A Reactive (1)O2 - Responsive Combined Treatment System of Photodynamic and Chemotherapy for Cancer.Incorporating gold nanoclusters and target-directed liposomes as a synergistic amplified colorimetric sensor for HER2-positive breast cancer cell detectionCurrent advances in lanthanide ion (Ln(3+))-based upconversion nanomaterials for drug delivery.Nucleic acid aptamer-mediated drug delivery for targeted cancer therapy.Cell-specific aptamers and their conjugation with nanomaterials for targeted drug delivery.Nanocomposite-Based Photodynamic Therapy Strategies for Deep Tumor Treatment.Near-IR photoactivation using mesoporous silica-coated NaYF4:Yb,Er/Tm upconversion nanoparticles.Ultrasmall Gold Nanorod Vesicles with Enhanced Tumor Accumulation and Fast Excretion from the Body for Cancer Therapy.Smart Probe for Tracing Cancer Therapy: Selective Cancer Cell Detection, Image-Guided Ablation, and Prediction of Therapeutic Response In Situ.Erythrocyte membrane-coated NIR-triggered biomimetic nanovectors with programmed delivery for photodynamic therapy of cancer.Reactive oxygen species generating systems meeting challenges of photodynamic cancer therapy.Recent progress in biomedical applications of persistent luminescence nanoparticles.Thiol-ene click chemistry: a biocompatible way for orthogonal bioconjugation of colloidal nanoparticles.Specific Targeting of Melanotic Cells with Peptide Ligated Photosensitizers for Photodynamic Therapy.Enhanced Targeted Gene Transduction: AAV2 Vectors Conjugated to Multiple Aptamers via Reducible Disulfide Linkages.Upconversion processes: versatile biological applications and biosafety.Versatile Self-Assembly and Biosensing Applications of DNA and Carbon Quantum Dots Coordinated Cerium Ions.Atomistic evolution during the phase transition on a metastable single NaYF4:Yb,Er upconversion nanoparticle.Monomer zinc phthalocyanine/upconversion nanoparticle coated with hyaluronic acid crosslinked gel as NIR light-activated drug for in vitro photodynamic therapy.Cascade DNA logic device programmed ratiometric DNA analysis and logic devices based on a fluorescent dual-signal probe of a G-quadruplex DNAzyme.Energy transfer between amphiphilic porphyrin polymer shells and upconverting nanoparticle cores in water-dispersible nano-assemblies.Cell-imprinted antimicrobial bionanomaterials with tolerable toxic side effects.Silver nanoparticle plasmonic enhanced förster resonance energy transfer (FRET) imaging of protein-specific sialylation on the cell surface.Assembly of a Highly Stable Luminescent Zn5 Cluster and Application to Bio-Imaging.Two-photon-absorption DNA sensitization via solvated electron production: unraveling photochemical pathways by molecular modeling and simulation.Simultaneous Monitoring of Cell-surface Receptor and Tumor-targeted Photodynamic Therapy via TdT-initiated Poly-G-Quadruplexes.A pre-protective strategy for precise tumor targeting and efficient photodynamic therapy with a switchable DNA/upconversion nanocomposite.
P2860
Q28468281-7A15B5FB-6277-40C5-AB8A-5BDD4B0859D3Q31026416-AA42240E-C3D0-4B16-8D69-74210852CE3DQ34160466-E56780EF-F01B-4BF7-9F08-B7EAA6E2C4A1Q34379902-99777D47-C0E3-4918-A117-177CB72B8EEEQ36373450-DC1B2D78-48A4-46B9-9163-79BE56EB7478Q36839885-8F0DF0CC-D2DF-4CEC-A8F3-4A8CBFCAEFD7Q37027523-2FC344A5-E68B-433C-97B4-1233929B6D01Q37117771-DB85BC2F-7DA1-4659-BBD5-B08C260B4E18Q37738222-E59F1223-5348-4E61-976E-E1A46F6A1FB4Q38225630-D9C3348E-622C-406A-9CC7-0AD04EC31C23Q38256244-5EED5AF1-EE16-4D4A-9793-0A477A070FEBQ38272165-BC9641A8-58DE-435A-9C7E-4F029E71A4D0Q38591548-1DC86CD4-08DE-4C8C-8949-BB81457AEB62Q38787353-00D58287-4DFE-4F14-81E5-7470360C94DFQ38850640-7C92BB80-2EBA-4876-9B82-E5962652B764Q38859857-01367E22-AA02-4E18-958A-B0290AFD6B32Q38876534-BFECCF11-96C0-4845-B7ED-2C7195ADA6C2Q38976861-A62DDE05-CF14-457C-8125-F288569B5A8CQ39280280-186AD90D-04F9-4D7E-86DD-1F5E4CCDD517Q42279264-BA9A9720-6748-4965-A782-7AF9B72A1D9FQ45199470-CA53FAD9-1D06-4791-AB16-9D4DE98946DCQ47235611-3C0B5378-DD11-4E59-ABBA-AC9574B72E31Q47768698-EE1304A6-F7BF-4052-9478-2EE684EAAC7CQ48017287-0DC14EE1-2158-45F4-8DAC-02D1F1AF17A8Q48112707-FA0D85EE-0CDD-46AD-A0B0-CD2407062DE7Q50227651-74533B69-1A3C-4B00-89B5-48262C95246DQ50259767-B2826F6C-0529-4CCE-A472-EBCD54B2557BQ50442135-99BEEE44-7813-45CF-B860-78B805BE5A9FQ50446997-AE581732-A67F-43FC-9192-791976A83369Q50645787-ABDC66E9-26E9-4625-90A9-EEE0D050F5D1Q51198183-9DE92A4C-FC02-4CF2-B319-F4E3716EBFC9Q53027706-ABE5B04E-7EAF-412F-A72F-133007354791Q55069452-4693AF4D-04DD-4C4E-AFC9-A27611F6DAE4Q55081781-5683208E-9F34-472C-8B98-22736981778A
P2860
Targeted bioimaging and photodynamic therapy nanoplatform using an aptamer-guided G-quadruplex DNA carrier and near-infrared light.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh-hant
name
Targeted bioimaging and photod ...... rrier and near-infrared light.
@en
Targeted bioimaging and photod ...... rrier and near-infrared light.
@nl
type
label
Targeted bioimaging and photod ...... rrier and near-infrared light.
@en
Targeted bioimaging and photod ...... rrier and near-infrared light.
@nl
prefLabel
Targeted bioimaging and photod ...... rrier and near-infrared light.
@en
Targeted bioimaging and photod ...... rrier and near-infrared light.
@nl
P2093
P2860
P356
P1476
Targeted bioimaging and photod ...... rrier and near-infrared light.
@en
P2093
Danqing Lu
Weihong Tan
Xiaobing Zhang
Zilong Zhao
P2860
P304
13965-13969
P356
10.1002/ANIE.201305707
P407
P577
2013-11-26T00:00:00Z