Boronate oxidation as a bioorthogonal reaction approach for studying the chemistry of hydrogen peroxide in living systems
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Improvement of human keratinocyte migration by a redox active bioelectric dressingSpatially-resolved intracellular sensing of hydrogen peroxide in living cellsRecent Advances in Photoacoustic Imaging for Deep-Tissue Biomedical Applications.New Dioxaborolane Chemistry Enables [(18)F]-Positron-Emitting, Fluorescent [(18)F]-Multimodality Biomolecule Generation from the Solid PhaseVinylboronic Acids as Fast Reacting, Synthetically Accessible, and Stable Bioorthogonal Reactants in the Carboni-Lindsey ReactionConstructing de novo H2O2 signaling via induced protein proximityCollective activation of MRI agents via encapsulation and disease-triggered releaseA rhodamine-based "turn-on" fluorescent probe for Fe3+ in aqueous solution.Fast and Tight Boronate Formation for Click Bioorthogonal Conjugation.The N-B Interaction through a Water Bridge: Understanding the Chemoselectivity of a Fluorescent Protein Based Probe for PeroxynitriteA chemiluminescent platform for smartphone monitoring of H2O2 in human exhaled breath condensatesMitochondrial hydrogen peroxide and defective cholesterol efflux prevent in vitro fertilization by cryopreserved inbred mouse sperm.Development of a General Aza-Cope Reaction Trigger Applied to Fluorescence Imaging of Formaldehyde in Living Cells.Preparation and use of MitoPY1 for imaging hydrogen peroxide in mitochondria of live cellsBoronate-based fluorescent probes: imaging hydrogen peroxide in living systems.Real-time measurements of amino acid and protein hydroperoxides using coumarin boronic acid.Stimuli sensitive polymers and self regulated drug delivery systems: a very partial reviewRecent advances in hydrogen peroxide imaging for biological applicationsReadily accessible fluorescent probes for sensitive biological imaging of hydrogen peroxideNitroxyl (HNO) reacts with molecular oxygen and forms peroxynitrite at physiological pH. Biological Implications.Two-photon fluorescence imaging of intracellular hydrogen peroxide with chemoselective fluorescent probes.Ratiometric fluorescent probes for hydrogen peroxide from a focused library.Spatial, temporal, and quantitative manipulation of intracellular hydrogen peroxide in cultured cells.Multiphoton excited fluorescent materials for frequency upconversion emission and fluorescent probes.Multiplex detection of enzymatic activity with responsive lanthanide-based luminescent probes.Boronic acids for fluorescence imaging of carbohydrates.Iminoboronate-Based Peptide Cyclization That Responds to pH, Oxidation, and Small Molecule Modulators.Recognition- and reactivity-based fluorescent probes for studying transition metal signaling in living systems.Recent developments in detection of superoxide radical anion and hydrogen peroxide: Opportunities, challenges, and implications in redox signaling.Hydrogen peroxide-activatable antioxidant prodrug as a targeted therapeutic agent for ischemia-reperfusion injuryFluorescent probes for sensing and imaging biological hydrogen sulfide.A Dual Sensor for pH and Hydrogen Peroxide Using Polymer-Coated Optical Fibre Tips.Versatile approach to α-alkoxy carbamate synthesis and stimulus-responsive alcohol release.Neurovascular and Immuno-Imaging: From Mechanisms to Therapies. Proceedings of the Inaugural Symposium.Sensing Glucose in Urine and Serum and Hydrogen Peroxide in Living Cells by Use of a Novel Boronate Nanoprobe Based on Surface-Enhanced Raman Spectroscopy.Hydrogen peroxide detection with high specificity in living cells and inflamed tissues.MnO nanoparticle@mesoporous carbon composites grown on conducting substrates featuring high-performance lithium-ion battery, supercapacitor and sensorChemically Engineered Nanoparticle-Protein Interface for Real-Time Cellular Oxidative Stress Monitoring.Receptor protein-tyrosine phosphatase α regulates focal adhesion kinase phosphorylation and ErbB2 oncoprotein-mediated mammary epithelial cell motility.Tumour hypoxia causes DNA hypermethylation by reducing TET activity.
P2860
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P2860
Boronate oxidation as a bioorthogonal reaction approach for studying the chemistry of hydrogen peroxide in living systems
description
2011 nî lūn-bûn
@nan
2011 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Boronate oxidation as a bioort ...... gen peroxide in living systems
@ast
Boronate oxidation as a bioort ...... gen peroxide in living systems
@en
type
label
Boronate oxidation as a bioort ...... gen peroxide in living systems
@ast
Boronate oxidation as a bioort ...... gen peroxide in living systems
@en
prefLabel
Boronate oxidation as a bioort ...... gen peroxide in living systems
@ast
Boronate oxidation as a bioort ...... gen peroxide in living systems
@en
P2093
P2860
P356
P1476
Boronate oxidation as a bioort ...... gen peroxide in living systems
@en
P2093
Alexander R Lippert
Christopher J Chang
Genevieve C Van de Bittner
P2860
P304
P356
10.1021/AR200126T
P407
P577
2011-08-11T00:00:00Z