Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
about
CYP450 Enzymes Effect Oxygen-Dependent Reduction of Azide-Based Fluorogenic DyesLive imaging of the genetically intractable obligate intracellular bacteria Orientia tsutsugamushi using a panel of fluorescent dyesMetabolic labelling of the carbohydrate core in bacterial peptidoglycan and its applicationsFluorescent Rhodamines and Fluorogenic Carbopyronines for Super-Resolution STED Microscopy in Living CellsSynthesis of fluorescent D-amino acids and their use for probing peptidoglycan synthesis and bacterial growth in situ.Tagging polyketides/non-ribosomal peptides with a clickable functionality and applications.A versatile click-compatible monolignol probe to study lignin deposition in plant cell walls.D-Amino Acid Probes for Penicillin Binding Protein-based Bacterial Surface Labeling.Progress and prospects for small-molecule probes of bacterial imaging.Luminogenic iridium azide complexesSystemic Fluorescence Imaging of Zebrafish Glycans with Bioorthogonal Chemistry.Diazaoxatriangulenium: synthesis of reactive derivatives and conjugation to bovine serum albumin.Lyme disease and relapsing fever Borrelia elongate through zones of peptidoglycan synthesis that mark division sites of daughter cells.A Two-Photon Excitation Based Fluorogenic Probe for Sialome Imaging in Living Systems.Click-Chemistry Based High Throughput Screening Platform for Modulators of Ras Palmitoylation.Evidence for a peptidoglycan-like structure in Orientia tsutsugamushi.Design strategies for bioorthogonal smart probesSilicon-substituted xanthene dyes and their applications in bioimaging.Illumination of growth, division and secretion by metabolic labeling of the bacterial cell surface.Bioorthogonal Chemistry-Introduction and Overview.Strain-Promoted 1,3-Dipolar Cycloaddition of Cycloalkynes and Organic Azides.A general approach to spirolactonized Si-rhodamines.Silicon-substituted Xanthene Dyes and Their Unique Photophysical Properties for Fluorescent Probes.Steering the azido-tetrazole equilibrium of 4-azidopyrimidines via substituent variation - implications for drug design and azide-alkyne cycloadditions.Evidence of Multi-Domain Morphological Structures in Living Escherichia coliMetabolic Profiling of Bacteria by Unnatural C-terminated D-Amino Acids.Detection of bioorthogonal groups by correlative light and electron microscopy allows imaging of degraded bacteria in phagocytes.D-amino carboxamide-based recruitment of dinitrophenol antibodies to bacterial surfaces via peptidoglycan remodeling.CalFluors: A Universal Motif for Fluorogenic Azide Probes across the Visible Spectrum.De novo biosynthesis of terminal alkyne-labeled natural products.A fluorogenic screening platform enables directed evolution of an alkyne biosynthetic tool.Dipeptide-Based Metabolic Labeling of Bacterial Cells for Endogenous Antibody RecruitmentReconstitution of peptidoglycan cross-linking leads to improved fluorescent probes of cell wall synthesis.Direct Intracellular Delivery of Cell-Impermeable Probes of Protein Glycosylation by Using Nanostraws.Postsynthetic Modification of Bacterial Peptidoglycan Using Bioorthogonal N-Acetylcysteamine Analogs and Peptidoglycan O-Acetyltransferase B.Fast Diazaborine Formation of Semicarbazide Enables Facile Labeling of Bacterial Pathogens.A unique rectilinearly π-extended rhodamine dye with large Stokes shift and near-infrared fluorescence for bioimaging.Conferring Phosphorogenic Properties on Iridium(III)-Based Bioorthogonal Probes through Modification with a Nitrone Unit.Bioorthogonal double-fluorogenic siliconrhodamine probes for intracellular super-resolution microscopy.Synthesis of BODIPY-Labeled Cholesterylated Glycopeptides by Tandem Click Chemistry for Glycocalyxification of Giant Unilamellar Vesicles (GUVs).
P2860
Q28818116-ED0EE2D0-1AA6-4037-B2F2-CBA8E52E4E5BQ28821445-BE0FE59B-72F1-4808-9AE6-5C98678E1139Q33622000-52E02735-8022-4D65-87AD-F361B0003D05Q34512392-BF3A6E6F-7709-4287-AE66-D5BD493A8F13Q34989218-0F32A536-F955-4336-8889-B6D63B6C07B6Q35169293-5D42779B-707F-41CF-A5E9-BC23C697E80BQ35605122-E0F4379B-6405-48DE-A8E2-0E488F1486FCQ35820842-F921D631-BD6D-419C-B47B-CC7B4156184FQ36055646-144347DD-AF95-460F-90B2-BC4A8E624CAEQ36113795-B02B0866-E416-4815-ADEE-1C984F51F0A2Q36412554-9F140099-265D-40BB-980A-85A517FCD586Q36430878-6F379477-BD03-46FE-9F6F-9115B6C871E9Q37200002-FB772769-02F2-4858-BA3C-29D842A8D1D9Q37309009-F5D27008-6AB7-44FA-B9F2-28ADEC984D8DQ37598923-82682F73-C441-459A-9576-43B8A7C484D2Q37834179-663DED25-85CA-46E0-8752-B13845221752Q38260181-19D5E058-9D30-42C0-8189-0F237FCF29C2Q38266113-4D078526-5F1C-4208-ABD7-078FFE59A4E8Q38366006-CE250844-8522-4C94-98BC-6DC14AA9F374Q38826707-0CB3ECD1-016E-442C-8095-D3B2E6C392B9Q38940191-E9E3E85B-875E-4B14-AC58-B035B2EDE6C0Q38949570-5B2771FF-F215-41E5-BC9A-194F0B322B86Q39269050-7EEC47B9-D474-44AB-9C7B-F83C3FB0D0E0Q40573596-E0417105-4F98-44D0-806B-981A239E0092Q41051651-F75E1FFE-B8DA-47DA-AD50-38B6BE44C053Q41126953-BE05370D-105F-45DD-8B11-22CFD7711A1FQ41143858-36FAB653-EA87-4667-9ED8-ECD1DA62E233Q41502815-FBE929B1-FD49-40FA-9ED9-EDFC315C9FFDQ41538630-96D32F97-A218-4871-9C5E-A7706CCDAF40Q41659409-46B0A170-5F72-4B0D-B5FD-D08F7E5CBE61Q41671003-11B58263-0F3E-45E9-AD0F-AB8ABB39E10FQ41817226-1C4BB767-B59F-4339-A28C-635DB4980191Q41832812-E69D188D-70FB-4DAA-8345-6D88393EC877Q46060791-C4EDCA86-A08B-4C71-B9A0-72A5661B1F55Q46308380-B7E68E9E-F6A0-4BAA-AE82-E793C7FF7706Q46443511-D175D48A-CB47-4FC4-BF27-9A63D32F1150Q47664861-40BA86F4-E3F3-4E8C-988A-F26D85A1A1FAQ48096681-F43DE444-A234-489A-83E7-27AF5BDE75CDQ48116264-810BE348-73B5-4305-9CED-86CC535B6078Q48132150-12CB3983-6770-467C-B5F4-1521BB62E837
P2860
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 31 March 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
@en
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes.
@nl
type
label
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
@en
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes.
@nl
prefLabel
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
@en
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes.
@nl
P2093
P2860
P356
P1476
Imaging bacterial peptidoglycan with near-infrared fluorogenic azide probes
@en
P2093
Andrew J Cullen
M Sloan Siegrist
Peyton Shieh
P2860
P304
P356
10.1073/PNAS.1322727111
P407
P577
2014-03-31T00:00:00Z