about
Mapping intact protein isoforms in discovery mode using top-down proteomicsFrom protein complexes to subunit backbone fragments: a multi-stage approach to native mass spectrometry.Front-end electron transfer dissociation: a new ionization sourceOptimization of electron transfer dissociation via informed selection of reagents and operating parameters.Extensive crosstalk between O-GlcNAcylation and phosphorylation regulates cytokinesisMethods for analyzing peptides and proteins on a chromatographic timescale by electron-transfer dissociation mass spectrometryAutopilot: an online data acquisition control system for the enhanced high-throughput characterization of intact proteins.Fragmentation of integral membrane proteins in the gas phase.Optimizing capillary electrophoresis for top-down proteomics of 30-80 kDa proteinsDeep and quantitative top-down proteomics in clinical and translational researchOn the scalability and requirements of whole protein mass spectrometryOnline matrix removal platform for coupling gel-based separations to whole protein electrospray ionization mass spectrometry.Mechanism of Inactivation of GABA Aminotransferase by (E)- and (Z)-(1S,3S)-3-Amino-4-fluoromethylenyl-1-cyclopentanoic Acid.Evaluation of the compact high-field orbitrap for top-down proteomics of human cells.Targeted analysis of recombinant NF kappa B (RelA/p65) by denaturing and native top down mass spectrometry.Probing Asymmetric Charge Partitioning of Protein Oligomers during Tandem Mass Spectrometry.Reducing protein oxidation in low-flow electrospray enables deeper investigation of proteoforms by top down proteomicsTop down proteomics of human membrane proteins from enriched mitochondrial fractionsIntegrated Bottom-Up and Top-Down Proteomics of Patient-Derived Breast Tumor Xenografts.An informatic framework for decoding protein complexes by top-down mass spectrometry.Unabridged Analysis of Human Histone H3 by Differential Top-Down Mass Spectrometry Reveals Hypermethylated Proteoforms from MMSET/NSD2 Overexpression.Mapping Proteoforms and Protein Complexes From King Cobra Venom Using Both Denaturing and Native Top-down Proteomics.Advancing Top-down Analysis of the Human Proteome Using a Benchtop Quadrupole-Orbitrap Mass Spectrometer.Defining Gas-Phase Fragmentation Propensities of Intact Proteins During Native Top-Down Mass Spectrometry.Native GELFrEE: a new separation technique for biomolecular assemblies.Native Electron Capture Dissociation Maps to Iron-Binding Channels in Horse Spleen Ferritin.The Ups and Downs of Repeated Cleavage and Internal Fragment Production in Top-Down Proteomics.The Mechanism of N2 Reduction Catalyzed by Fe-Nitrogenase Involves Reductive Elimination of H2.Top-down characterization of endogenous protein complexes with native proteomics.Chromatographic efficiency and selectivity in top-down proteomics of histones.CN-GELFrEE - Clear Native Gel-eluted Liquid Fraction Entrapment ElectrophoresisSpinning up mass spectrometry for whole protein complexesA Targeted, Differential Top-Down Proteomic Methodology for Comparison of ApoA-I Proteoforms in Individuals with High and Low HDL Efflux CapacityAccurate Sequence Analysis of a Monoclonal Antibody by Top-Down and Middle-Down Orbitrap Mass Spectrometry Applying Multiple Ion Activation TechniquesEstimating the Distribution of Protein Post-Translational Modification States by Mass SpectrometryMultiplexed mass spectrometry of individual ions improves measurement of proteoforms and their complexesVoltage Rollercoaster Filtering of Low-Mass Contaminants During Native Protein AnalysisA novel crosslinking protocol stabilizes amyloid β oligomers capable of inducing Alzheimer's-associated pathologiesNovel Interface for High-Throughput Analysis of Biotherapeutics by Electrospray Mass SpectrometryNative vs Denatured: An in Depth Investigation of Charge State and Isotope Distributions
P50
Q28251805-AEB43E24-FBF4-4BC3-A0DF-107518E8EA75Q30355639-A808A70C-1B50-46AB-82AA-778C8AE263ABQ30410860-48803FE1-E872-4B89-8C65-F08C95FE7237Q30422453-54B33B69-2E8B-42F7-AC4A-D9DA0F3AEB47Q30436151-A7414B57-79C1-469E-B6E2-76D24F4B2C70Q30436361-A16EFFF0-BA29-4720-9C4D-A867051C4B85Q30728318-81C6CB53-1C5F-446D-B34F-B398F9BF3855Q33598813-50D4374F-3299-41A7-9C64-DBDDA66D38D5Q33666493-E636E480-FC43-44F1-A370-9F0482998C89Q34969457-2CDF375E-0197-4ED9-B3D8-B63BE57ED3BDQ35190601-5A1ABA9F-B6D7-49CC-B947-227137B55B6DQ35569642-A5AD6A8A-13FE-42C7-90FC-7E3F4F883CE0Q36074460-EBF2882C-FEED-4E20-89FD-9FE206C9AC2AQ36222142-6BB0243C-0860-46CB-8363-6969B9316DD1Q36249167-5445D210-4093-406E-81C9-B03058E17C46Q36357695-86FCD38E-3205-4163-BFD1-9331497434B4Q36439822-3F598725-4961-432F-B5DE-94DA910DCC87Q36591183-58F2B38F-FA18-4016-A80F-0E78C4867629Q36604140-5F0C2F95-47DD-4FCB-BBF0-D995F0067BF9Q36619314-5F166E31-765A-44A9-968C-A88911DF5F4BQ36745131-3017244A-03B0-42AC-BFCC-F0FD6405AA0DQ37076901-1C42A4A3-0308-4F60-8950-EE83EB59D38AQ38381370-EBCF7DD9-668B-42E2-A4C1-CE1619033201Q38856975-D715C22A-A364-4D81-88F1-074AF8FD85B7Q41459695-7022503A-10C0-4409-A272-9637F7DD851BQ42380245-B2D95FB6-D8F3-41F4-9F41-E19205760A9AQ46009736-E3EE17EB-566D-458D-9DE0-B540B05303D3Q47249714-F1D6BF4A-EB3C-4964-A4EC-00B5E6D0C961Q47409854-205830EA-A23E-41D6-A725-21666727E46CQ50259778-02A41A5B-148F-48A1-B9C0-3407902A923DQ54964316-35B24135-F09A-4FA2-BCF8-6A28D6A6CC57Q54964347-8D0B23CB-2E38-41B9-AC15-9601118A4F89Q56934006-B14AE01B-9E0D-48A3-8E23-2D6AAE80739BQ56934011-CBA14C4A-69EB-441D-8D89-83775F128012Q56934019-B5C02092-615F-40EB-A201-A6473316E8D8Q89984142-6A9B366C-AD7F-4E0E-8C04-644D580FC181Q90001691-02D9D7DA-42AA-477C-A0E0-44495A2C8498Q90628076-0C2F3598-A680-4861-AE38-1CB3283B807BQ92277162-B1AE622D-9715-44BC-B81A-14E014988C59Q92873873-9D4343AD-02C4-482C-8C51-62DE44CDABBD
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Philip Compton
@ast
Philip Compton
@en
Philip Compton
@es
Philip Compton
@nl
Philip Compton
@sl
type
label
Philip Compton
@ast
Philip Compton
@en
Philip Compton
@es
Philip Compton
@nl
Philip Compton
@sl
prefLabel
Philip Compton
@ast
Philip Compton
@en
Philip Compton
@es
Philip Compton
@nl
Philip Compton
@sl
P1053
A-9921-2013
P106
P21
P31
P3829
P496
0000-0001-5212-7175