about
Highly Selective and Large Scale Mass Spectrometric Analysis of 4-Hydroxynonenal Modification via Fluorous Derivatization and Fluorous Solid-Phase Extraction.Site-Specific Quantification of Protein Ubiquitination on MS2 Fragment Ion Level via Isobaric Peptide Labeling.MdFDIA: A Mass Defect Based Four-Plex Data-Independent Acquisition Strategy for Proteome Quantification.Metallic Element Chelated Tag Labeling (MeCTL) for Quantitation of N-Glycans in MALDI-MS.Fluorous Solid-Phase Extraction Technique Based on Nanographite Fluoride.Direct digestion of living cells via a gel-based strategy for mass spectrometric analysis.Reductive Amination Combining Dimethylation for Quantitative Analysis of Early Stage Glycated Proteins.Ultradeep Palmitoylomics Enabled by Dithiodipyridine-Functionalized Magnetic Nanoparticles.HST-MRM-MS: A Novel High-Sample-Throughput Multiple Reaction Monitoring Mass Spectrometric Method for Multiplex Absolute Quantitation of Hepatocellular Carcinoma Serum BiomarkerChemical labeling for fine mapping of IgG N-glycosylation by ETD-MSSelective Enrichment and Quantification of N-Terminal Glycine Peptides via Sortase A Mediated LigationIntegrated Pipeline of Isotopic Labeling and Selective Enriching for Quantitative Analysis of N-Glycome by Mass SpectrometrySite-Specific Quantification of Protein Palmitoylation by Cysteine-Stable Isotope Metabolic LabelingDuplex Stable Isotope Labeling (DuSIL) for Simultaneous Quantitation and Distinction of Sialylated and Neutral N-Glycans by MALDI-MSStable Isotope Sequential Derivatization for Linkage-Specific Analysis of Sialylated N-Glycan Isomers by MSIn-Depth Analysis of C Terminomes Based on LysC Digestion and Site-Selective DimethylationMdCDPM: A Mass Defect-Based Chemical-Directed Proteomics Method for Targeted Analysis of Intact SialylglycopeptidesSelective Identification and Site-Specific Quantification of 4-Hydroxy-2-nonenal-Modified Proteins
P50
Q38962749-D5DD1A25-DD42-4851-AFCD-A31018299165Q47693922-29A2099E-CE13-44E1-A2E9-0648010C466BQ47855209-E6C2B1A5-FC99-4B62-8909-4153E917F230Q48244889-099B9F60-2E45-4950-8C40-AE432DECB8ADQ48351095-B12A8C20-897B-4FCB-BF97-11627FCFE4F1Q48360039-8F7F2A21-382F-4811-9D2E-135FF7E468E1Q50024110-D2043F97-F8A4-40A8-A785-05715ADE40B0Q52320240-DB2F7FDB-AE0F-4D82-9CB5-B21FF1F8FCCDQ57804189-94C54229-A9BA-477E-B145-6933BF01A740Q89940691-FC0ABFCA-DD11-40E1-A366-B221CF40737BQ89993628-C4F162BC-AF6E-410E-98FC-D7FE4F7E0FA6Q90582050-EE9B1684-CCAD-4E63-A30A-0AD7B2FA77C4Q90811930-DA2B0050-3B09-448F-9486-7AF83DF0A3FDQ90850186-8A736CA3-6AE7-44FC-8B35-2CC00EE676D7Q91295073-D533E53E-7468-40BC-B6B1-1C10BF3051FBQ91538656-EF95D18A-C6D0-4F19-8FF2-032BF4951484Q91953144-40AD5AFA-7ECC-474B-849C-419060E46FC8Q92501908-22C30277-2365-4B4C-93F5-26C4A17E9403
P50
description
researcher
@en
wetenschapper
@nl
name
Haojie Lu
@en
Haojie Lu
@nl
type
label
Haojie Lu
@en
Haojie Lu
@nl
prefLabel
Haojie Lu
@en
Haojie Lu
@nl
P31
P496
0000-0003-3477-7662