Formation of targeted monovalent quantum dots by steric exclusion.
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Role of surface charge in determining the biological effects of CdSe/ZnS quantum dotsStable small quantum dots for synaptic receptor tracking on live neuronsQuantum dot-loaded monofunctionalized DNA icosahedra for single-particle tracking of endocytic pathwaysEvaluation of fluorophores to label SNAP-tag fused proteins for multicolor single-molecule tracking microscopy in live cells.Production and targeting of monovalent quantum dotsRational evolution of Cd2+-specific DNAzymes with phosphorothioate modified cleavage junction and Cd2+ sensing.A Mechanogenetic Toolkit for Interrogating Cell Signaling in Space and Time.Recent developments in antibody-based assays for the detection of bacterial toxins.Ferritin family proteins and their use in bionanotechnology.Quantum dots: bright and versatile in vitro and in vivo fluorescence imaging biosensors.Single-cell mechanogenetics using monovalent magnetoplasmonic nanoparticles.Lights, camera, action! Capturing the spliceosome and pre-mRNA splicing with single-molecule fluorescence microscopy.Sperm DNA-mediated reduction of nonspecific fluorescence during cellular imaging with quantum dots.Nucleic Acid-Based Nanodevices in Biological Imaging.Quantum dots-DNA bioconjugates: synthesis to applications.Segmentation of 3D Trajectories Acquired by TSUNAMI Microscope: An Application to EGFR Trafficking.Dark-field-based observation of single-nanoparticle dynamics on a supported lipid bilayer for in situ analysis of interacting molecules and nanoparticles.In vitro reconstitution of T cell receptor-mediated segregation of the CD45 phosphatase.Selection and Screening of DNA Aptamers for Inorganic Nanomaterials.Valence-Engineering of Quantum Dots Using Programmable DNA Scaffolds.Bottom-Up Strategy To Prepare Nanoparticles with a Single DNA Strand.Poly-cytosine DNA as a High-Affinity Ligand for Inorganic Nanomaterials.Stable, small, specific, low-valency quantum dots for single-molecule imaging.A Rhizavidin Monomer with Nearly Multimeric Avidin-Like Binding Stability Against Biotin Conjugates.Enhanced Delta-Notch Lateral Inhibition Model Incorporating Intracellular Notch Heterogeneity and Tension-Dependent Rate of Delta-Notch Binding that Reproduces Sprouting Angiogenesis Patterns.Single Quantum Dot Tracking Illuminates Neuroscience at the NanoscaleExpression and significance of quantum dots in RAW 264.7 macrophagesProspective Use of High-Refractive Index Materials for Single Molecule Detection in Flow Cytometry
P2860
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P2860
Formation of targeted monovalent quantum dots by steric exclusion.
description
2013 nî lūn-bûn
@nan
2013 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Formation of targeted monovalent quantum dots by steric exclusion.
@ast
Formation of targeted monovalent quantum dots by steric exclusion.
@en
Formation of targeted monovalent quantum dots by steric exclusion.
@nl
type
label
Formation of targeted monovalent quantum dots by steric exclusion.
@ast
Formation of targeted monovalent quantum dots by steric exclusion.
@en
Formation of targeted monovalent quantum dots by steric exclusion.
@nl
prefLabel
Formation of targeted monovalent quantum dots by steric exclusion.
@ast
Formation of targeted monovalent quantum dots by steric exclusion.
@en
Formation of targeted monovalent quantum dots by steric exclusion.
@nl
P2093
P2860
P50
P356
P1433
P1476
Formation of targeted monovalent quantum dots by steric exclusion.
@en
P2093
Justin Farlow
Marcus J Taylor
Zev J Gartner
P2860
P2888
P304
P356
10.1038/NMETH.2682
P577
2013-10-13T00:00:00Z
P5875
P6179
1049300497