Protein delivery into live cells by incubation with an endosomolytic agent
about
Quantitative tracking of protein trafficking to the nucleus using cytosolic protein delivery by nanoparticle-stabilized nanocapsules.Exosome engineering for efficient intracellular delivery of soluble proteins using optically reversible protein-protein interaction modulePeptide translocation through the plasma membrane of human cells: Can oxidative stress be exploited to gain better intracellular access?Improved delivery of Cas9 protein/gRNA complexes using lipofectamine CRISPRMAX.Two complementary approaches for intracellular delivery of exogenous enzymes.Chemical tagging and customizing of cellular chromatin states using ultrafast trans-splicing inteinsA versatile cell-penetrating peptide-adaptor system for efficient delivery of molecular cargos to subcellular destinations.Delivery of Proteins, Peptides or Cell-impermeable Small Molecules into Live Cells by Incubation with the Endosomolytic Reagent dfTAT.Fluorescence correlation spectroscopy reveals highly efficient cytosolic delivery of certain penta-arg proteins and stapled peptidesMembrane Oxidation Enables the Cytosolic Entry of Polyarginine Cell-penetrating Peptides.Efficient therapeutic delivery by a novel cell-permeant peptide derived from KDM4A protein for antitumor and antifibrosis.Membrane-active peptides from marine organisms--antimicrobials, cell-penetrating peptides and peptide toxins: applications and prospects.Modifying peptides to enhance permeability.Synthetic approaches to protein phosphorylation.Self-aggregation propensity of the Tat peptide revealed by UV-Vis, NMR and MD analyses.An l- to d-Amino Acid Conversion in an Endosomolytic Analog of the Cell-penetrating Peptide TAT Influences Proteolytic Stability, Endocytic Uptake, and Endosomal Escape.The Late Endosome and Its Lipid BMP Act as Gateways for Efficient Cytosolic Access of the Delivery Agent dfTAT and Its Macromolecular Cargos.Nanoescapology: progress toward understanding the endosomal escape of polymeric nanoparticles.Intracellular delivery of proteins by nanocarriers.Membrane Oxidation in Cell Delivery and Cell Killing Applications.Endolysosomal targeting of a clinical chlorin photosensitiser for light-triggered delivery of nano-sized medicines.Intracellular chromobody delivery by mesoporous silica nanoparticles for antigen targeting and visualization in real time.The AT-Hook motif as a versatile minor groove anchor for promoting DNA binding of transcription factor fragments.Breaking in and busting out: cell-penetrating peptides and the endosomal escape problem.A designed DNA binding motif that recognizes extended sites and spans two adjacent major groovesGFP-complementation assay to detect functional CPP and protein delivery into living cells.Self-assembling dual component nanoparticles with endosomal escape capability.High efficiency and long-term intracellular activity of an enzymatic nanofactory based on metal-organic frameworks.Mammalian display screening of diverse cystine-dense peptides for difficult to drug targets.Transduction Methods for Cytosolic Delivery of Proteins and Bioconjugates into Living Cells.Intracellular delivery of more than one protein with spatio-temporal control.Unlocking Endosomal Entrapment with Supercharged Arginine-Rich Peptides.Cytosolic antibody delivery by lipid-sensitive endosomolytic peptide.General Strategy for Direct Cytosolic Protein Delivery via Protein-Nanoparticle Co-engineering.ECBS & ICBS 2015 Joint Meeting: Bringing Chemistry to Life.The role of Tat peptide self-aggregation in membrane pore stabilization: insights from a computational study.A General Method for Intracellular Protein Delivery through 'E-tag' Protein Engineering and Arginine Functionalized Gold Nanoparticles.Intracellular Delivery of Nanobodies for Imaging of Target Proteins in Live Cells.Protein engineering strategies with potential applications for altering clinically relevant cellular pathways at the protein level.Engineering of bacterial exotoxins for highly efficient and receptor-specific intracellular delivery of diverse cargos.
P2860
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P2860
Protein delivery into live cells by incubation with an endosomolytic agent
description
2014 nî lūn-bûn
@nan
2014 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Protein delivery into live cells by incubation with an endosomolytic agent
@ast
Protein delivery into live cells by incubation with an endosomolytic agent
@en
Protein delivery into live cells by incubation with an endosomolytic agent
@nl
type
label
Protein delivery into live cells by incubation with an endosomolytic agent
@ast
Protein delivery into live cells by incubation with an endosomolytic agent
@en
Protein delivery into live cells by incubation with an endosomolytic agent
@nl
prefLabel
Protein delivery into live cells by incubation with an endosomolytic agent
@ast
Protein delivery into live cells by incubation with an endosomolytic agent
@en
Protein delivery into live cells by incubation with an endosomolytic agent
@nl
P2093
P2860
P356
P1433
P1476
Protein delivery into live cells by incubation with an endosomolytic agent
@en
P2093
Alfredo Erazo-Oliveras
Gregory A Johnson
Jean-Philippe Pellois
Kristina Najjar
Laila Dayani
P2860
P2888
P304
P356
10.1038/NMETH.2998
P50
P577
2014-06-15T00:00:00Z
P5875
P6179
1009522569