"Internal residue loss": rearrangements occurring during the fragmentation of carbohydrates derivatized at the reducing terminus.
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Mass spectrometry of glycansExploring site-specific N-glycosylation microheterogeneity of haptoglobin using glycopeptide CID tandem mass spectra and glycan database searchProteomic analysis of glycosylation: structural determination of N- and O-linked glycans by mass spectrometry.Characterization of moenomycin antibiotic complex by multistage MALDI-IT/RTOF-MS and ESI-IT-MS.Discrimination of 16 structural isomers of fucosyl galactoside based on energy-resolved mass spectrometry.Mass spectrometric glycan rearrangements.Analytical platform for glycomic characterization of recombinant erythropoietin biotherapeutics and biosimilars by MS.Isomer-specific LC/MS and LC/MS/MS profiling of the mouse serum N-glycome revealing a number of novel sialylated N-glycansStructural Characterization of Carbohydrates by Fourier Transform Tandem Mass Spectrometry.Mannose7 glycan isomer characterization by IMS-MS/MS analysis.N-Glycan structure annotation of glycopeptides using a linearized glycan structure database (GlyDB)Structural definition of trehalose 6-monomycolates and trehalose 6,6'-dimycolates from the pathogen Rhodococcus equi by multiple-stage linear ion-trap mass spectrometry with electrospray ionization.Glycan analysis by modern instrumental methods.LC-MS/MS analysis of permethylated free oligosaccharides and N-glycans derived from human, bovine, and goat milk samples.GlycoDeNovo - an Efficient Algorithm for Accurate de novo Glycan Topology Reconstruction from Tandem Mass Spectra.Exploiting bacterial glycosylation machineries for the synthesis of a Lewis antigen-containing glycoprotein.Recent (2000-2015) developments in the analysis of minor unknown natural products based on characteristic fragment information using LC-MS.Structural studies on archaeal phytanyl-ether lipids isolated from membranes of extreme halophiles by linear ion-trap multiple-stage tandem mass spectrometry with electrospray ionization.Site-Specific Mapping of Sialic Acid Linkage Isomers by Ion Mobility Spectrometry.Interplay of permanent charge and hydrophobicity in the electrospray ionization of glycans.Studies on sulfatides by quadrupole ion-trap mass spectrometry with electrospray ionization: structural characterization and the fragmentation processes that include an unusual internal galactose residue loss and the classical charge-remote fragmentXylose Migration During Tandem Mass Spectrometry of N-Linked Glycans.Using non-covalent complexes to direct the fragmentation of glycosidic bonds in the gas phase.Structure elucidation of native N- and O-linked glycans by tandem mass spectrometry (tutorial).Collisionally activated dissociation and electron capture dissociation provide complementary structural information for branched permethylated oligosaccharides.Electron detachment dissociation of neutral and sialylated oligosaccharides.LC-MS/MS analysis of permethylated N-glycans facilitating isomeric characterization.Analysis of a caffeic acid derivative by ESI-MS/MS: unexpected product ions formed by 'internal residue loss'.Characterization of Isomeric Glycans by Reversed Phase Liquid Chromatography-Electronic Excitation Dissociation Tandem Mass Spectrometry.Various sulfated carbohydrate tumor marker candidates identified by focused glycomic analyses.Quantitative twoplex glycan analysis using 12C6 and 13C6 stable isotope 2-aminobenzoic acid labelling and capillary electrophoresis mass spectrometry.
P2860
Q27016013-99B5EB7C-2BB2-4554-BF8E-B4A6F111AF1DQ28680669-86015DE1-D867-464A-B22C-5A8CD9F8E876Q33217476-16B2892D-0585-48E1-B616-F2563343E6BDQ33244965-046A49C9-D3DB-49E8-97FE-A47F6E792E9BQ33296383-C7521224-9943-46D8-823D-4056EFF898D4Q33895405-61FE2183-122F-4CA3-8F90-183659416717Q34593205-0D33D5D5-E422-41CE-92A6-6D1141767DA0Q34638339-72D4882F-C8A5-4747-8C4F-B308B46703A0Q35786742-18612895-E381-4AC4-AF8F-6283C977EBD5Q36449040-D535D8AA-1C79-4F01-95FD-ACF93E01486AQ36917567-91F969BD-2F0D-48D3-B3A0-B040C02047E4Q37610191-A36A8D47-6961-4237-A5DE-DC7FAD10CE47Q37829419-9995806D-C0BB-4FA2-A2B5-EA78DFEAF074Q38293319-6B008D94-C5F9-447A-96A0-EB06ACC0B112Q38635446-CE1D0B56-B2FD-4AEC-9ECB-CB212BD5352EQ38796205-8D99F53E-6365-493B-85A0-68FF26CC9D2BQ38875972-6B66BB59-6591-4CE2-B205-072B552E8B39Q39656905-C3EC54EE-045D-4BFF-89E2-D3BED37B5175Q41005579-A9DC5FC7-E84C-4B6C-9908-9FC121D98B98Q41829412-B43EBFF0-DCA5-440E-AF30-3D4577F0BC27Q44816371-173EDC12-42EF-4C89-B313-F41C80008108Q44869731-F0C1895F-9A4B-4AAA-AAB7-FF1C0E3FA616Q44879243-C4647942-1AC8-420B-920F-37B90822B850Q46614544-321514F7-60AB-42E8-B580-526CBC718E46Q46863116-AC954403-555B-4355-A87C-5574DFAC144AQ46930733-924A39A2-5AB8-4CBB-97F3-26D4DC0C612BQ50351188-A045408C-CE74-4BDE-98CD-18634E45AD40Q51446667-788DDA69-54DC-4B39-AE4E-ABF306D87C28Q53411021-9C2CDBF3-351D-4FFC-A426-20CD1B233B9AQ53609090-D3654D49-70FE-41FE-A0E0-4DC8DC9F1B41Q54503422-65D64387-008E-4307-816F-98F5D17A0062
P2860
"Internal residue loss": rearrangements occurring during the fragmentation of carbohydrates derivatized at the reducing terminus.
description
2002 nî lūn-bûn
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2002年の論文
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2002年学术文章
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2002年学术文章
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2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
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name
"Internal residue loss": rearr ...... ized at the reducing terminus.
@en
"Internal residue loss": rearr ...... ized at the reducing terminus.
@nl
type
label
"Internal residue loss": rearr ...... ized at the reducing terminus.
@en
"Internal residue loss": rearr ...... ized at the reducing terminus.
@nl
prefLabel
"Internal residue loss": rearr ...... ized at the reducing terminus.
@en
"Internal residue loss": rearr ...... ized at the reducing terminus.
@nl
P2093
P356
P1433
P1476
"Internal residue loss": rearr ...... ized at the reducing terminus.
@en
P2093
David J Harvey
Louise Royle
Mark R Wormald
Pauline M Rudd
Raymond A Dwek
Taj S Mattu
P304
P356
10.1021/AC0109321
P407
P577
2002-02-01T00:00:00Z