Evaluation of gas-phase rearrangement and competing fragmentation reactions on protein phosphorylation site assignment using collision induced dissociation-MS/MS and MS3.
about
Computational phosphoproteomics: from identification to localizationAssay development for the determination of phosphorylation stoichiometry using multiple reaction monitoring methods with and without phosphatase treatment: application to breast cancer signaling pathwaysResolution of protein structure by mass spectrometry.Protein structure as a means to triage proposed PTM sites.Phosphoproteomics--more than meets the eye.Time-resolved observation of product ions generated by 157 nm photodissociation of singly protonated phosphopeptides.Gas-phase rearrangements do not affect site localization reliability in phosphoproteomics data sets.Phosphoproteomics for the massesIdentification of phosphorylation sites within the signaling adaptor APPL1 by mass spectrometry.Automatic annotation of experimentally derived, evolutionarily conserved post-translational modifications onto multiple genomesSulfonium ion derivatization, isobaric stable isotope labeling and data dependent CID- and ETD-MS/MS for enhanced phosphopeptide quantitation, identification and phosphorylation site characterization.Label-free liquid chromatography-tandem mass spectrometry analysis with automated phosphopeptide enrichment reveals dynamic human milk protein phosphorylation during lactationSeparation of peptide isomers with variant modified sites by high-resolution differential ion mobility spectrometry.Phosphothreonine 218 is required for the function of SR45.1 in regulating flower petal development in Arabidopsis.Gas-phase intermolecular phosphate transfer within a phosphohistidine phosphopeptide dimerExamining factors that influence erroneous phosphorylation site localization via competing fragmentation and rearrangement reactions during ion trap CID-MS/MS and -MS(3.).Protein analysis by shotgun/bottom-up proteomicsUnambiguous characterization of site-specific phosphorylation of leucine-rich repeat Fli-I-interacting protein 2 (LRRFIP2) in Toll-like receptor 4 (TLR4)-mediated signalingmzResults: an interactive viewer for interrogation and distribution of proteomics results.Femtosecond laser-induced ionization/dissociation tandem mass spectrometry (fsLID-MS/MS) of deprotonated phosphopeptide anions.Ultrasensitive identification of localization variants of modified peptides using ion mobility spectrometry.Ion mobility separation of isomeric phosphopeptides from a protein with variant modification of adjacent residues.Identification of proteins and phosphoproteins using pulsed Q collision induced dissociation (PQD).Extracted Fragment Ion Mobility Distributions: A New Method for Complex Mixture Analysis.Ion mobility separation of variant histone tails extending to the "middle-down" rangeThe human embryonic stem cell proteome revealed by multidimensional fractionation followed by tandem mass spectrometryNeutral Loss Is a Very Common Occurrence in Phosphotyrosine-Containing Peptides Labeled with Isobaric Tags.Phosphopeptide enrichment with TiO2-modified membranes and investigation of tau protein phosphorylation.Multiple phosphorylations of cytochrome c oxidase and their functions.Enhanced detection of multiply phosphorylated peptides and identification of their sites of modification.Fulfilling the Krebs and Beavo criteria for studying protein phosphorylation in the era of mass spectrometry-driven kinome research.Targeted proteomics by selected reaction monitoring mass spectrometry: applications to systems biology and biomarker discovery.Catch me if you can: mass spectrometry-based phosphoproteomics and quantification strategies.Tandem mass spectrometry strategies for phosphoproteome analysis.Quantitative phosphoproteomics strategies for understanding protein kinase-mediated signal transduction pathways.Dissociation techniques in mass spectrometry-based proteomics.Phosphoproteomic analysis: an emerging role in deciphering cellular signaling in human embryonic stem cells and their differentiated derivatives.Site-specific degree of phosphorylation in proteins measured by liquid chromatography-electrospray mass spectrometry.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.
P2860
Q27005933-5DDB8D7F-ABA8-487D-9335-837475BB9D17Q28397338-EC76A24B-7F7F-4447-BE12-FF2136543BBFQ30370085-8ABDC8C5-4243-499D-AD3A-C685A2FBB242Q30423942-2525DFAD-7C41-47EE-9F3E-414754084698Q30429237-0C4AFBE8-E907-453D-A788-E71E59DF8910Q33509719-017E381B-7394-42A3-B937-F3D373786250Q33550932-BAF4824D-9882-4771-9FBF-001BEA019849Q33605268-D01B00D3-EBFA-4552-A9CA-2B8AC475AAB6Q33752478-10A3C2B7-F81D-4B34-8F45-829F64A8596EQ33899844-E8974E05-6FFA-4563-94AD-0679402DE4C2Q34032968-CEC37771-43DB-4567-83CD-DCE04F880B6BQ34242355-D3C9744A-3753-4A13-86C1-CED9901887C8Q34278930-AD5C994D-57A7-41F6-AA1B-BE554F2E832EQ34373186-C1C7BB71-3E85-4EA8-8B91-75B6C719BEBBQ34470385-5B4C74A6-678E-403B-A83B-FC3D83715CADQ34555407-AD9B42A4-89F6-47FE-93BE-84B2DF5338BCQ34600986-D9C3B4A6-091E-4C49-A265-C798321004EDQ34719335-FBD927D1-1737-483D-8941-408507EC8B9BQ34994331-9F5B635C-F86E-4527-85CE-58BAFA839065Q35038254-8AFF9671-3E3C-4270-9222-951E82E81F67Q35106268-06C868A3-4014-49EB-A4E8-0E6012FC1359Q35115199-27ACE711-C8AB-454D-B70A-44889CD21C86Q35246519-242F4121-EDC6-4439-AEF9-C6BDC13718B1Q35891711-2EB9B09D-68C2-4740-8FD6-1DBB3554D58FQ35962515-2AEF7A55-9F5F-450A-BD49-6CABDB0A2B13Q36116283-03D87297-DC60-4B53-9B20-1B0ECF393AB1Q36225560-B1C6615C-5050-407D-BEA5-0FD3F2FEC384Q37040466-55847B16-2CB9-476A-99E9-7E1C602E5CBEQ37058209-157798F9-BDC5-46EF-9C7B-1AEBBEDC6E8BQ37344321-00005EB5-21D8-4189-AC55-884FA9CFAC83Q37628713-9BF8A3CD-6BF6-401C-A1D2-3B4EF11BA519Q37803137-C95E7666-5659-4A22-8E74-CD2A768BAB02Q37827835-AF603305-93AA-4202-B6D5-B6743D2743CCQ37835773-F4BE4FC3-CE67-47CC-8979-DB82EAF45D4DQ37844153-719777DA-7C7C-41EC-9BF8-F5ECC8565548Q37893510-46753432-7619-4E4B-9C5C-32F295B94BC6Q37947084-088DAE4B-374A-4D48-A73E-F34CC3CB6628Q38015279-1994F8E3-2D3F-4A23-A056-FA338BCB6338Q38101159-0937D1A0-9940-410B-9771-1E7F8FCA6C3BQ38200920-9C8C88F4-8E81-41C3-9214-153391BBF18A
P2860
Evaluation of gas-phase rearrangement and competing fragmentation reactions on protein phosphorylation site assignment using collision induced dissociation-MS/MS and MS3.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@en
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@nl
type
label
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@en
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@nl
prefLabel
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@en
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@nl
P356
P1433
P1476
Evaluation of gas-phase rearra ...... ed dissociation-MS/MS and MS3.
@en
P2093
Amanda M Palumbo
P304
P356
10.1021/AC801768S
P407
P577
2008-12-01T00:00:00Z