C alpha-C backbone fragmentation dominates in electron detachment dissociation of gas-phase polypeptide polyanions.
about
Matrix effect on in-source decay products of peptides in matrix-assisted laser desorption/ionizationIon Activation Methods for Peptides and ProteinsGas-phase peptide sulfinyl radical ions: formation and unimolecular dissociation.Electrochemical reactions and ionization processes.Negative electron transfer dissociation of glycosaminoglycans.Specific cleavage at peptide backbone Cα-C and CO-N bonds during matrix-assisted laser desorption/ionization in-source decay mass spectrometry with 5-nitrosalicylic acid as the matrix.Mass spectrometric characterization of phosphorylated peptides using MALDI in-source decay via redox reactions.Gas-phase chemistry of multiply charged bioions in analytical mass spectrometryPeptide backbone fragmentation initiated by side-chain loss at cysteine residue in matrix-assisted laser desorption/ionization in-source decay mass spectrometry.193-nm photodissociation of singly and multiply charged peptide anions for acidic proteome characterization.Femtosecond laser-induced ionization/dissociation tandem mass spectrometry (fsLID-MS/MS) of deprotonated phosphopeptide anions.Electron photodetachment dissociation for structural characterization of synthetic and bio-polymer anions.5-nitrosalicylic Acid as a novel matrix for in-source decay in matrix-assisted laser desorption/ionization mass spectrometry.Principles of hydrogen radical mediated peptide/protein fragmentation during matrix-assisted laser desorption/ionization mass spectrometry.UV photodissociation of proline-containing peptide ions: insights from molecular dynamics.Electron detachment dissociation of glycosaminoglycan tetrasaccharides.Systematic comparison of ultraviolet photodissociation and electron transfer dissociation for peptide anion characterization.Analysis of the acidic proteome with negative electron-transfer dissociation mass spectrometry.Protein primary structure using orthogonal fragmentation techniques in Fourier transform mass spectrometry.Top-down identification and characterization of biomolecules by mass spectrometry.Distinguishing glucuronic from iduronic acid in glycosaminoglycan tetrasaccharides by using electron detachment dissociation.High-throughput database search and large-scale negative polarity liquid chromatography-tandem mass spectrometry with ultraviolet photodissociation for complex proteomic samples.Electron detachment dissociation of dermatan sulfate oligosaccharides.Photodissociation mass spectrometry: new tools for characterization of biological molecules.Tandem mass spectrometry strategies for phosphoproteome analysis.Formation of peptide radical ions through dissociative electron transfer in ternary metal-ligand-peptide complexes.Radical-driven peptide backbone dissociation tandem mass spectrometry.The Negative Mode Proteome with Activated Ion Negative Electron Transfer Dissociation (AI-NETD)Visible and ultraviolet spectroscopy of gas phase protein ions.Concurrent automated sequencing of the glycan and peptide portions of O-linked glycopeptide anions by ultraviolet photodissociation mass spectrometry.Characterizing peptide neutral losses induced by negative electron-transfer dissociation (NETD)In-Source Decay Characterization of Isoaspartate and β-Peptides.Electron detachment dissociation for top-down mass spectrometry of acidic proteins.Peptide radical cations: gender determines dissociation chemistry.Tyrosine deprotonation yields abundant and selective backbone cleavage in peptide anions upon negative electron transfer dissociation and ultraviolet photodissociation.Top-down mass spectrometry for sequencing of larger (up to 61 nt) RNA by CAD and EDD.Comparative dissociation of peptide polyanions by electron impact and photo-induced electron detachment.Fragmentation of alpha-radical cations of arginine-containing peptides.Metastable atom-activated dissociation mass spectrometry of phosphorylated and sulfonated peptides in negative ion mode.Metastable atom-activated dissociation mass spectrometry: leucine/isoleucine differentiation and ring cleavage of proline residues.
P2860
Q27025387-A16F8F8D-07E1-4A69-ACCE-B2FEB951D6A7Q29391863-C2A41BD7-6206-43C1-AF78-3FD5CB1785D6Q33455606-137BBC39-F272-4929-94DD-4CE3F022A203Q33597500-D862262E-D6D3-4444-B620-79C65B23C0C4Q33848414-6A141B35-FA2A-410D-9F48-93A3232C2356Q33972730-4ECA98E2-8BA5-4B77-AF0D-B0030846034AQ34167720-3D75FE6C-50FF-4291-81CC-E4A394F8A429Q34474703-4EDE43B5-8A8E-43D6-8476-76B4D69829E9Q34621008-DBFFD49F-D988-4D85-B0EF-22E4C0E39803Q35024551-39FDAF6B-ED96-4305-8512-F39EA01362F9Q35038254-56A7CFAE-CFB3-46B8-97D1-AE0968BD6946Q35055886-9503F79E-2A2D-42C6-8696-DDE67AC5290BQ35173867-7B201566-B9A9-44C1-90A8-9E67D9DE8DB3Q35305787-72BF0422-43A4-43AE-A309-BE60B433D8D3Q35516850-6F727E10-8FB9-42C0-992A-49538AB4B49FQ35614125-51160290-60A8-4C83-B3C5-1CCDCE2703F5Q35701509-EB400959-A1CD-4F92-BE0F-DD7251108442Q35846571-7B70EA53-7FC3-4F55-B9DE-9F9EC0C2BD05Q36445589-5418CED6-536C-4EC9-8E94-3C07455DA0ADQ36882777-5EA8CA44-B003-4778-9622-01FFF39E2653Q36981903-7D6D0714-4885-4AB2-A192-E35EE51FDDE6Q37160946-E8CF3CA5-B1C2-4470-B2E9-140A5F77F9C5Q37227984-82CC73D9-2A1B-4B3C-9166-22A93287046EQ37666151-7213C81E-AA95-4C6C-A7C0-9CDC9BA4FD53Q37835773-809467FC-9D63-4592-A345-0C9B44422EC9Q37978547-3A779602-0BAB-4659-862D-8FBC59A34731Q38215119-46379FDC-24EB-45D4-992E-A3D2D5D51317Q38982823-17DCEA6D-DB6E-41C6-9789-7CA8C1541108Q39721582-CA18557D-2BE5-4083-B4CE-0282E2AC2861Q41892264-046C31C6-6222-49E8-9ABC-4B1611A35097Q42192576-4EDDA9EC-9B80-4FF5-8B65-3F70B39BA606Q42225476-7C4CA081-8364-4BE9-8B96-8F139139528BQ42228520-4F1CE334-4278-4DF9-B1DC-75A247C7A3B6Q42254670-77D4E716-24A9-430E-B0C7-DB6865DD663FQ42589416-2AB8B119-7FB1-41AA-8B6A-5DEF59FF3035Q43110264-AD38E42A-F70B-4C79-B749-ED07C703CEBDQ43156122-D3AE2F96-A08F-453A-B789-208766F3B926Q43170407-A70A6E92-86BA-40B0-BBC3-80905A11F7B2Q43988418-FBD0FEA9-063D-43D8-9D6B-7F25811F622BQ45998195-2BBD3E17-B4DF-432E-9B11-63C8EA1E3182
P2860
C alpha-C backbone fragmentation dominates in electron detachment dissociation of gas-phase polypeptide polyanions.
description
2005 nî lūn-bûn
@nan
2005 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի մարտին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@ast
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@en
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@nl
type
label
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@ast
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@en
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@nl
prefLabel
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@ast
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@en
C alpha-C backbone fragmentati ...... -phase polypeptide polyanions.
@nl
P2093
P50
P356
P1476
C alpha-C backbone fragmentati ...... s-phase polypeptide polyanions
@en
P2093
Igor A Ivonin
Kim F Haselmann
Oleg A Silivra
P304
P356
10.1002/CHEM.200400806
P407
P577
2005-03-01T00:00:00Z