Electron capture dissociation proceeds with a low degree of intramolecular migration of peptide amide hydrogens
about
Hydrogen exchange mass spectrometry: are we out of the quicksand?Partial cooperative unfolding in proteins as observed by hydrogen exchange mass spectrometry.Controlling hydrogen scrambling in multiply charged protein ions during collisional activation: implications for top-down hydrogen/deuterium exchange MS utilizing collisional activation in the gas phase.Probing the Gaseous Structure of a β-Hairpin Peptide with H/D Exchange and Electron Capture Dissociation.The utility of hydrogen/deuterium exchange mass spectrometry in biopharmaceutical comparability studiesIntegrating mass spectrometry of intact protein complexes into structural proteomicsPrinciples of electron capture and transfer dissociation mass spectrometry applied to peptide and protein structure analysis.Considerations in the analysis of hydrogen exchange mass spectrometry data.Electrospray ionization mass spectrometry as a method for studying the high-pressure denaturation of proteins.Hydra: software for tailored processing of H/D exchange data from MS or tandem MS analyses.'Fixed charge' chemical derivatization and data dependant multistage tandem mass spectrometry for mapping protein surface residue accessibility.H/D exchange and mass spectrometry in the studies of protein conformation and dynamics: is there a need for a top-down approach?Enhancing the quality of H/D exchange measurements with mass spectrometry detection in disulfide-rich proteins using electron capture dissociation.Hydrogen/deuterium exchange mass spectrometry for probing higher order structure of protein therapeutics: methodology and applications.Dynamic protein ligand interactions--insights from MS.Real-time hydrogen/deuterium exchange kinetics via supercharged electrospray ionization tandem mass spectrometry.Resolving isotopic fine structure to detect and quantify natural abundance- and hydrogen/deuterium exchange-derived isotopomers.Use of 1,5-diaminonaphthalene to combine matrix-assisted laser desorption/ionization in-source decay fragmentation with hydrogen/deuterium exchange.Differential hydrogen/deuterium exchange mass spectrometry analysis of protein-ligand interactionsEffects of supercharging reagents on noncovalent complex structure in electrospray ionization from aqueous solutionsA new method to measure muscle protein synthesis in humans by endogenously introduced d9-leucine and using blood for precursor enrichment determination.Mapping protein surface accessibility via an electron transfer dissociation selectively cleavable hydrazone probeETD in a traveling wave ion guide at tuned Z-spray ion source conditions allows for site-specific hydrogen/deuterium exchange measurementsIon Mobility Spectrometry-Hydrogen Deuterium Exchange Mass Spectrometry of Anions: Part 2. Assessing Charge Site Location and Isotope Scrambling.Real-time HD Exchange Kinetics of Proteins from Buffered Aqueous Solution with Electrothermal Supercharging and Top-Down Tandem Mass Spectrometry.Ion Mobility Spectrometry-Hydrogen Deuterium Exchange Mass Spectrometry of Anions: Part 3. Estimating Surface Area Exposure by Deuterium UptakeElectron capture by a hydrated gaseous peptide: effects of water on fragmentation and molecular survival.Automated hydrogen/deuterium exchange electron transfer dissociation high resolution mass spectrometry measured at single-amide resolution.Protein conformations can be probed in top-down HDX MS experiments utilizing electron transfer dissociation of protein ions without hydrogen scrambling.Conformer-specific characterization of nonnative protein states using hydrogen exchange and top-down mass spectrometry.Probing the mechanism of electron capture and electron transfer dissociation using tags with variable electron affinityGas-phase hydrogen/deuterium exchange in a traveling wave ion guide for the examination of protein conformations.Capturing protein structural kinetics by mass spectrometry.High-resolution MS for structural characterization of protein therapeutics: advances and future directions.Higher order structure characterization of protein therapeutics by hydrogen/deuterium exchange mass spectrometry.Analysis of phosphoinositide 3-kinase inhibitors by bottom-up electron-transfer dissociation hydrogen/deuterium exchange mass spectrometry.Advances in ion mobility-mass spectrometry instrumentation and techniques for characterizing structural heterogeneity.The role of structural proteomics in vaccine development: recent advances and future prospects.Comprehensive Gas-Phase Peptide Ion Structure Studies Using Ion Mobility Techniques: Part 2. Gas-Phase Hydrogen/Deuterium Exchange for Ion Population Estimation.Regio-Selective Intramolecular Hydrogen/Deuterium Exchange in Gas-Phase Electron Transfer Dissociation.
P2860
Q28263711-65CF6DE3-CE53-41E2-BD15-6D8F9FAAF8E4Q30009855-8E443100-71EF-4778-846F-43F5B6E25E4FQ30384154-2F1436A8-A13B-4869-90F2-A98BA9AA83D9Q30396317-FFD119BE-0182-489F-982A-70F94E4BB84CQ30401825-AC0651EF-6827-4B24-A970-724EFBCBBE65Q30417001-E30F7074-1F93-42B8-9173-9B06084A5836Q30427725-B3631193-C3B2-4CCB-810C-05439C2FD345Q30624819-BB4443DA-1F4D-4B09-8A17-B0569859AA30Q33442202-69746E11-23EE-4620-A2C3-5103D20C1D50Q33454047-74DF3E7E-33B3-4603-B840-8C3BBEF31FA9Q33572511-3F15D600-13FB-405D-A031-AFA0769D1166Q33585139-110F4E32-9874-4552-8C95-88A878361EA0Q33732576-189BACE2-A4B9-4CE5-9CC2-0E07FF4ABE46Q33844511-BD94A6CE-1342-4ABF-A2A9-32F78D16A0C2Q34132743-162856EA-B423-4150-88B6-DC4008D606E2Q34626415-02B0B26B-8861-4313-B20C-78E59D682801Q34712697-B761D371-990E-4EE8-90C9-C868B4F5C03AQ34822535-D25E5397-3590-4037-A2CB-1AC97799FC98Q35040616-7D647B3A-CF6A-48CC-A3C2-33DB93473F71Q35120265-4BB1759F-BAEE-493C-90B2-CBE4A4B18229Q36036417-3025D4DB-BD33-4CF1-988C-82D0074B48BFQ36089904-6BF547F8-61B0-485F-82F1-F12042822608Q36225549-002179E8-26F3-4361-AB07-656D383F941DQ36746372-6794C172-EA8D-4801-8F77-E2ABB75482B8Q36896639-8688F9D9-1C19-40E8-AED0-EADB25332565Q36915930-7B40A6F6-CFAB-44B8-BF10-3CDC7FB1E190Q37170526-9686E31E-9E03-4AD9-BAC8-C15760F6C353Q37228274-1E355840-FFA3-4491-841B-35E05F999391Q37301806-EFB6CA69-407C-4D2F-8A44-6014779039D9Q37395119-127DECFD-A06F-420A-9E99-9C632504FDEBQ37395671-9F283383-4C09-4B29-A03B-E4CEEC0C08B1Q37480120-776957CA-29B7-42AA-9D6D-6C8B0A477775Q37872627-3D457CBD-6EDD-40C4-93A5-035C148365A3Q38110611-98807F6B-4BCA-489C-BF86-0B5BB15F195FQ38221786-3C1EEFDA-AA24-4D32-8AE3-5737BD94D8EFQ38288444-CF551BBE-3384-4DFA-81AD-36A5BBA00380Q38538398-9C924AAE-4A3B-4BB6-A138-99930881256CQ38682335-F91E9048-A0E8-43D8-98ED-1589E9034128Q38896696-18026436-4CE0-4C1B-88C3-9C78B9066250Q38962883-D6DED186-37A5-428B-9A8C-E8FA915362B0
P2860
Electron capture dissociation proceeds with a low degree of intramolecular migration of peptide amide hydrogens
description
2008 nî lūn-bûn
@nan
2008 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հունվարին հրատարակված գիտական հոդված
@hy
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
name
Electron capture dissociation ...... ion of peptide amide hydrogens
@ast
Electron capture dissociation ...... ion of peptide amide hydrogens
@en
Electron capture dissociation ...... ion of peptide amide hydrogens
@nl
type
label
Electron capture dissociation ...... ion of peptide amide hydrogens
@ast
Electron capture dissociation ...... ion of peptide amide hydrogens
@en
Electron capture dissociation ...... ion of peptide amide hydrogens
@nl
prefLabel
Electron capture dissociation ...... ion of peptide amide hydrogens
@ast
Electron capture dissociation ...... ion of peptide amide hydrogens
@en
Electron capture dissociation ...... ion of peptide amide hydrogens
@nl
P50
P356
P1476
Electron capture dissociation ...... ion of peptide amide hydrogens
@en
P2093
Christopher M Adams
P304
P356
10.1021/JA076448I
P407
P577
2008-01-03T00:00:00Z