Integration of immobilized trypsin bead beds for protein digestion within a microfluidic chip incorporating capillary electrophoresis separations and an electrospray mass spectrometry interface.
about
Microfabrication and applications of opto-microfluidic sensors.Bead mediated separation of microparticles in droplets.Protein digestion and phosphopeptide enrichment on a glass microchip.Interfaces for coupled liquid-phase separation/mass spectrometry techniques. An update on recent developments.Covalent immobilization of proteases and nucleases to poly(methylmethacrylate).Advances in coupling microfluidic chips to mass spectrometry.In-capillary enrichment, proteolysis and separation using capillary electrophoresis with discontinuous buffers: application on proteins with moderately acidic and basic isoelectric points.Automated, rapid solid-phase proteolytic cleavage and sample preparation for proteomicsA microfluidic reactor for rapid, low-pressure proteolysis with on-chip electrospray ionization.Microfluidic devices for high-throughput proteome analyses.Microfluidic chips for clinical and forensic analysis.A replaceable microreactor for on-line protein digestion in a two-dimensional capillary electrophoresis system with tandem mass spectrometry detection.MALDI-target integrated platform for affinity-captured protein digestionProteomics-on-a-chip: the challenge to couple lab-on-a-chip unit operations.CE-microreactor-CE-MS/MS for protein analysis.Microdevices in mass spectrometry.Protein immobilization techniques for microfluidic assaysProteomic reactors and their applications in biology.An overview of on-line systems using drug metabolizing enzymes integrated into capillary electrophoresis.Digital microfluidic hydrogel microreactors for proteomics.Droplet-based microfluidic washing module for magnetic particle-based assays.Poly(dimethylsiloxane) electrospray devices fabricated with diamond-like carbon-poly(dimethylsiloxane) coated SU-8 masters.Characterization of an immobilized enzyme reactor for on-line protein digestion.A microfluidic chip with a staircase pH gradient generator, a packed column and a fraction collector for chromatofocusing of proteins.A personal stroll through the historical development of Canadian microfluidics.Rapid prototyping of microfluidic chips for dead-volume-free MS coupling.A new on-chip ESI nozzle for coupling of MS with microfluidic devices.Dealing with real samples: sample pre-treatment in microfluidic systems.Application of microfluidic devices to proteomics research: identification of trace-level protein digests and affinity capture of target peptides.Structural and Chemical Characterization of Silica Spheres before and after Modification by Silanization for Trypsin Immobilization
P2860
Q26852513-53DFBE1B-2FBC-4261-8591-17389974C6EBQ30360146-62830D80-1E60-4E57-A889-3A5C177C46DAQ30369950-21017B9E-0104-4108-A449-097C02D85528Q30828878-10881804-64FC-41B2-8458-81D24AA48C08Q30923944-36EFA000-7CFA-4C17-B083-604DC3CB9B0FQ31147615-E307C3E9-044C-4CB0-B065-B594CB29CB19Q33392929-D0E9D660-7D33-454C-B290-FA7011089867Q33461651-E90B5B04-6BB0-4CA8-9584-EBF5ADA0B801Q33521960-D76E2F28-CBB3-405A-B2A8-FFDA5EEE0B47Q34470736-D9B9A704-4DFE-45BD-A0A5-88CB63793BDDQ34561467-02627DA2-9054-45E3-840C-91224EF9CB6CQ34570714-C317AD06-634D-4438-B0D8-D438DC44C4DDQ35072160-A17A60AA-EDA0-4B0A-B8F4-E268912FBD83Q36168340-CC1A872F-8E9E-445A-AC63-245ECAE24E4CQ36908720-8318F562-7CFC-4D6A-BE15-10305442B9E0Q36945432-37E506EA-3EBF-4A43-A319-32FBF69A63DFQ37106312-0090E516-9BED-488B-B3B0-69ACAC9A390FQ37913542-351D5610-32A2-4019-8696-CDD7971D6C0CQ38115265-6BC3F6B6-512E-4DE4-A583-078E946514B6Q40035680-B4D6ACD3-D1F7-4979-8259-E821F81D5EE6Q41911161-7F5E697C-FDC0-48CC-852D-ED6D857A12FAQ44853763-56D9B382-3669-48E2-94B2-640826C74A59Q47142899-9F5C5ED5-C181-4B58-8C95-C9C37955BBD9Q48220429-6350A186-790B-46C4-88AD-8DFCFF2E587AQ48236491-48EB1608-0F69-410E-A303-0B925AC788BAQ51481702-3F5070C1-F052-49B0-9413-ED728B952830Q51596622-D1BDE90D-6D7F-40F2-AC07-6A59014FB433Q51596925-5B43598B-AE6C-4729-B6C3-246EAAB764F2Q51601632-89FE7B41-E6D9-4B13-BD49-32E22A5E2E90Q59146581-D541C262-1BC2-415F-BA9E-D9EBEB875B02
P2860
Integration of immobilized trypsin bead beds for protein digestion within a microfluidic chip incorporating capillary electrophoresis separations and an electrospray mass spectrometry interface.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
Integration of immobilized try ...... y mass spectrometry interface.
@en
Integration of immobilized try ...... y mass spectrometry interface.
@nl
type
label
Integration of immobilized try ...... y mass spectrometry interface.
@en
Integration of immobilized try ...... y mass spectrometry interface.
@nl
prefLabel
Integration of immobilized try ...... y mass spectrometry interface.
@en
Integration of immobilized try ...... y mass spectrometry interface.
@nl
P2093
P2860
P1476
Integration of immobilized try ...... y mass spectrometry interface.
@en
P2093
P2860
P304
P356
10.1002/1097-0231(20000815)14:15<1377::AID-RCM31>3.0.CO;2-2
P577
2000-01-01T00:00:00Z