Tandem mass spectrometry strategies for phosphoproteome analysis.
about
Functional analysis of novel phosphorylation sites of CREB-binding protein using mass spectrometry and mammalian two-hybrid assaysRecent advances in enrichment and separation strategies for mass spectrometry-based phosphoproteomicsComputational phosphoproteomics: from identification to localizationProtein modifications by electrophilic lipoxidation products: adduct formation, chemical strategies and tandem mass spectrometry for their detection and identificationA new ion mobility-linear ion trap instrument for complex mixture analysisIon Activation Methods for Peptides and ProteinsGlycobioinformatics: current strategies and tools for data mining in MS-based glycoproteomics.Sulfonium ion derivatization, isobaric stable isotope labeling and data dependent CID- and ETD-MS/MS for enhanced phosphopeptide quantitation, identification and phosphorylation site characterization.Attempting to rewrite History: challenges with the analysis of histidine-phosphorylated peptides.Examining factors that influence erroneous phosphorylation site localization via competing fragmentation and rearrangement reactions during ion trap CID-MS/MS and -MS(3.).Femtosecond laser-induced ionization/dissociation tandem mass spectrometry (fsLID-MS/MS) of deprotonated phosphopeptide anions.Evaluation of HCD- and CID-type fragmentation within their respective detection platforms for murine phosphoproteomics.Using fragmentation trees and mass spectral trees for identifying unknown compounds in metabolomics.Peptide identification by tandem mass spectrometry with alternate fragmentation modes.Neutral Loss Is a Very Common Occurrence in Phosphotyrosine-Containing Peptides Labeled with Isobaric Tags.Formation and dissociation of phosphorylated peptide radical cations.Temporal Phosphoproteome Dynamics Induced by an ATP Synthase Inhibitor Citreoviridin.Phosphopeptide enrichment with TiO2-modified membranes and investigation of tau protein phosphorylation.Highly efficient ionization of phosphopeptides at low pH by desorption electrospray ionization mass spectrometry.Integration of proteomics into systems biology of cancer.Site-specific degree of phosphorylation in proteins measured by liquid chromatography-electrospray mass spectrometry.Advances in phosphopeptide enrichment techniques for phosphoproteomics.Deciphering post-translational modification codes.Quantitative analysis of global phosphorylation changes with high-resolution tandem mass spectrometry and stable isotopic labelingRecent developments and applications of electron transfer dissociation mass spectrometry in proteomics.The application of targeted mass spectrometry-based strategies to the detection and localization of post-translational modifications.Mass spectrometry-driven phosphoproteomics: patterning the systems biology mosaic.Towards single-cell LC-MS phosphoproteomics.Signal transduction: From the atomic age to the post-genomic eraQuantitation of protein post-translational modifications using isobaric tandem mass tags.Negative ion cleavages of (M-H)(-) anions of peptides. Part 3. Post-translational modifications.Mapping the Phosphorylation Pattern of Drosophila melanogaster RNA Polymerase II Carboxyl-Terminal Domain Using Ultraviolet Photodissociation Mass Spectrometry.Identification and relative quantification of phosphopeptides by a combination of multi-protease digestion and isobaric labeling.Modulation of Phosphopeptide Fragmentation via Dual Spray Ion/Ion Reactions Using a Sulfonate-Incorporating Reagent.Use of theoretical peptide distributions in phosphoproteome analysisHigh-resolution mass spectrometric analysis of myo-inositol hexakisphosphate using electrospray ionisation Orbitrap.Diagnostic di- and triphosphate cyclisation in the negative ion electrospray mass spectra of phosphoSer peptides.Can collision-induced negative-ion fragmentations of [M-H](-) anions be used to identify phosphorylation sites in peptides?A negative ion mass spectrometry approach to identify cross-linked peptides utilizing characteristic disulfide fragmentations.Overcoming the instability of gaseous peptide phosphate ester groups by dimetal protection.
P2860
Q24313470-066832D1-354E-4C8C-A964-BE213AEEA0CDQ26852864-E6E02FC5-CD4E-43A0-A758-2A9033CCC79EQ27005933-A80E3AE7-EB14-4A50-8F41-0DEBED18D559Q28392711-207A1A99-6B72-4C6A-8573-6325EAAC0308Q28393063-5CDCB6FF-41F3-4F18-A10B-70691839135AQ29391863-A7FCDEF9-31D0-4151-BA91-2E9FCF08BB96Q30578276-9A9F1AA7-AD25-4874-9D86-FF94B9C9B615Q34032968-1EE4539C-EB7D-4F6B-9BC8-AF0C7BF08FEAQ34358051-C0F44A57-5BEA-446C-A24A-1BA5959AA248Q34555407-F9D52015-7EAB-4024-8C43-67A4DDE1C1BAQ35038254-59D14E65-74B2-4707-A916-AF7E6B630E92Q35610658-5231D921-A15E-4064-854C-4B03F73EE1CBQ35715135-0CB92AA8-8F6B-4BF4-B9EF-0BC154C14ED6Q36211835-79EA5333-1110-4467-82F5-71FDD770B9AFQ36225560-FA949D7F-D8A4-40FD-9AAB-4E51D4F168E0Q36446313-3300E1FE-8289-485D-B5F4-81F89299DFF9Q36604376-99067D48-1F16-4A83-B2E1-D1F002FD488DQ37040466-C0AC37EF-B36D-435F-8560-A703841E60E7Q37610578-6790C068-BECC-4B8E-80DB-834011F1B352Q37992554-0D3FE16E-8C07-4B11-9D3F-37D45870C5E6Q38015279-FC3EE32F-B5DC-4DF6-B441-077009F3433EQ38028383-7B4ED170-BEA2-4C40-941B-99CCCE3ED93DQ38080975-3C969B04-6BCC-4D2D-A500-7AC2F1FF6B3AQ38101159-1CAF68B2-F84D-4AD9-AE9E-3F2968FBDD19Q38200920-55F0199D-AA61-42C1-9634-EBB750F6A3E6Q38204953-E4971F61-F3A2-41F1-8AA6-A86334D77E50Q38217990-B6EADF41-61AA-456B-BF64-84D5D8784583Q38234569-C2522255-4A9A-4B75-B577-FA968B71DB51Q38264082-E7934554-615F-43ED-A58F-0152F828EE77Q38361906-C4C4A57D-D97C-4D6C-9E2D-A7C1076F150DQ38790836-FD8F7179-5E2D-4105-A3C0-28E7DE8B07A0Q39012142-3C1EADB0-FAB0-4DFF-93D1-121860263F95Q40500610-48CABDEA-CC74-4E8F-A9C8-82D8F641DB82Q41089851-B065EAD1-E618-4DCE-BD01-517A01FD1BF0Q41890494-BD559C14-3A27-4E36-99C2-BE682F65BAA6Q42702429-A1C1ADB3-CCFD-42A8-90F1-481616098549Q44219958-C84EECA2-F0B5-4291-A76B-E6BE6AB8BE5CQ44276891-BD85D354-93FB-4223-87E4-793CEAE141E5Q44553618-9A5F8EB7-D28D-44CB-9553-9478E6BA067DQ45193594-342BAE1B-13BA-4BF6-B471-B9F50D8B66AF
P2860
Tandem mass spectrometry strategies for phosphoproteome analysis.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 February 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Tandem mass spectrometry strategies for phosphoproteome analysis.
@en
Tandem mass spectrometry strategies for phosphoproteome analysis.
@nl
type
label
Tandem mass spectrometry strategies for phosphoproteome analysis.
@en
Tandem mass spectrometry strategies for phosphoproteome analysis.
@nl
prefLabel
Tandem mass spectrometry strategies for phosphoproteome analysis.
@en
Tandem mass spectrometry strategies for phosphoproteome analysis.
@nl
P2093
P2860
P50
P356
P1476
Tandem mass spectrometry strategies for phosphoproteome analysis
@en
P2093
Amanda M Palumbo
Christine L Kalcic
Marcos Dantus
P2860
P304
P356
10.1002/MAS.20310
P577
2011-02-03T00:00:00Z