A simple procedure for effective quenching of trypsin activity and prevention of 18O-labeling back-exchange
about
Comparative analysis of proteome and transcriptome variation in mouse.Targeted 18O-labeling for improved proteomic analysis of carbonylated peptides by mass spectrometryLiquid chromatography-mass spectrometry-based quantitative proteomics.Unraveling pancreatic islet biology by quantitative proteomics.Proteomic analysis of early response lymph node proteins in mice treated with titanium dioxide nanoparticles18O-labeled proteome reference as global internal standards for targeted quantification by selected reaction monitoring-mass spectrometry.Quantitative proteomics analysis of adsorbed plasma proteins classifies nanoparticles with different surface properties and size.Compensatory Islet Response to Insulin Resistance Revealed by Quantitative Proteomics.Sources of technical variability in quantitative LC-MS proteomics: human brain tissue sample analysisIdentification of Novel N-Glycosylation Sites at Noncanonical Protein Consensus Motifs.An integrative strategy for quantitative analysis of the N-glycoproteome in complex biological samplesChromatin remodeller SMARCA4 recruits topoisomerase 1 and suppresses transcription-associated genomic instabilityEnzyme Kinetics for Complex System Enables Accurate Determination of Specificity Constants of Numerous Substrates in a Mixture by Proteomics Platform.Integrated platform with a combination of online digestion and (18)O labeling for proteome quantification via an immobilized trypsin microreactor.N-terminal labeling of peptides by trypsin-catalyzed ligation for quantitative proteomics.Comprehensive mass spectrometry based biomarker discovery and validation platform as applied to diabetic kidney disease.Variation in FPOP Measurements Is Primarily Caused by Poor Peptide Signal Intensity
P2860
Q30431821-A90C8B2D-454D-4F0F-913C-3FC8A7D80C16Q33910965-D4EC3C0A-3D87-49E4-A1C5-A845943AB3FCQ35111036-8F5891D7-C416-4701-A02C-F5FE11474D2DQ35178704-1D82BAA8-2DB3-4EDE-A767-B3DD850435F5Q35549102-7487FC00-924E-4E94-BE45-4D8ADBE34500Q35610629-9A8AC7BC-5C21-43F1-A0F1-B9C7AC5F1FE5Q35655227-828AE369-4201-4AB4-AB57-7AE6FC627713Q36191447-7B896267-2F83-4C5F-928E-65FAD017370FQ36963132-AB9226EE-6DE4-4A59-B364-E460EA2ADD57Q37401444-074D373E-2365-4674-994E-0EB40C60B0A6Q37581747-DA193076-367E-4E7D-8128-FEAA644C95ECQ38266781-12A9AF8A-4186-4789-8BB4-7EF13AC33A4BQ38384586-CBF1D4A9-12DA-4E24-A279-435045104135Q38865221-9F9D2A5C-F2C4-41E2-959B-EE250D9B68D1Q43911714-5A58FBF5-D451-4E42-B734-A734E6F6C20EQ55293538-16357568-FAD4-4224-8663-EBDBCB39ABA2Q57262726-90FC4044-553D-40AC-BBB4-E4BD86C33E58
P2860
A simple procedure for effective quenching of trypsin activity and prevention of 18O-labeling back-exchange
description
article científic
@ca
article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on May 2009
@en
vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
A simple procedure for effecti ...... of 18O-labeling back-exchange
@en
A simple procedure for effecti ...... of 18O-labeling back-exchange.
@nl
type
label
A simple procedure for effecti ...... of 18O-labeling back-exchange
@en
A simple procedure for effecti ...... of 18O-labeling back-exchange.
@nl
prefLabel
A simple procedure for effecti ...... of 18O-labeling back-exchange
@en
A simple procedure for effecti ...... of 18O-labeling back-exchange.
@nl
P2860
P356
P1476
A simple procedure for effecti ...... of 18O-labeling back-exchange
@en
P2093
Brianne O Petritis
David G Camp
P2860
P304
P356
10.1021/PR800971W
P577
2009-05-01T00:00:00Z