Deciphering drift time measurements from travelling wave ion mobility spectrometry-mass spectrometry studies.
about
Chemical structure identification in metabolomics: computational modeling of experimental featuresThe hepatitis B virus preS1 domain hijacks host trafficking proteins by motif mimicryProtein modifications by electrophilic lipoxidation products: adduct formation, chemical strategies and tandem mass spectrometry for their detection and identificationSizing and Discovery of Nanosized Polyoxometalate Clusters by Mass SpectrometryA comparison of the folding characteristics of free and ribosome-tethered polypeptide chains using limited proteolysis and mass spectrometryAmphipols outperform dodecylmaltoside micelles in stabilizing membrane protein structure in the gas phase.Amphipathic polymers enable the study of functional membrane proteins in the gas phaseChanges in protein structure monitored by use of gas-phase hydrogen/deuterium exchangeUsing hydroxyl radical footprinting to explore the free energy landscape of protein folding.Protein Structural Studies by Traveling Wave Ion Mobility Spectrometry: A Critical Look at Electrospray Sources and Calibration Issues.Compaction properties of an intrinsically disordered protein: Sic1 and its kinase-inhibitor domain.Amphitrite: A program for processing travelling wave ion mobility mass spectrometry data.Resolving structural isomers of monosaccharide methyl glycosides using drift tube and traveling wave ion mobility mass spectrometryIntegrating ion mobility mass spectrometry with molecular modelling to determine the architecture of multiprotein complexesElongated oligomers in beta2-microglobulin amyloid assembly revealed by ion mobility spectrometry-mass spectrometry.Conformational isomers of calcineurin follow distinct dissociation pathways.Letter: A simple ion source set-up for desorption/ionization on silicon with ion mobility spectrometry and ion mobility spectrometry-mass spectrometry.Defining the mechanism of polymerization in the serpinopathies.Impact of limited oxidation on protein ion mobility and structure of importance to footprinting by radical probe mass spectrometry.Large-scale collision cross-section profiling on a traveling wave ion mobility mass spectrometer.Conformational selection underlies recognition of a molybdoenzyme by its dedicated chaperoneContribution of the empirical dispersion correction on the conformation of short alanine peptides obtained by gas-phase QM calculations.On the usefulness of ion-mobility mass spectrometry and SAXS data in scoring docking decoys.Ion mobility spectrometry-mass spectrometry defines the oligomeric intermediates in amylin amyloid formation and the mode of action of inhibitorsLocalization of fatty acyl and double bond positions in phosphatidylcholines using a dual stage CID fragmentation coupled with ion mobility mass spectrometry.Dividing to unveil protein microheterogeneities: traveling wave ion mobility studyGas-phase conformations of capistruin - comparison of lasso, branched-cyclic and linear topologies.Top-down mass spectrometry of hybrid materials with hydrophobic peptide and hydrophilic or hydrophobic polymer blocks.FPOP-LC-MS/MS Suggests Differences in Interaction Sites of Amphipols and Detergents with Outer Membrane Proteins.SDS-PAGE analysis of Aβ oligomers is disserving research into Alzheimer´s disease: appealing for ESI-IM-MSSignatures of Mechanically Interlocked Topology of Lasso Peptides by Ion Mobility-Mass Spectrometry: Lessons from a Collection of Representatives.Insights into the consequences of co-polymerisation in the early stages of IAPP and Aβ peptide assembly from mass spectrometry.Native tandem and ion mobility mass spectrometry highlight structural and modular similarities in clustered-regularly-interspaced shot-palindromic-repeats (CRISPR)-associated protein complexes from Escherichia coli and Pseudomonas aeruginosaCharacterization of Traveling Wave Ion Mobility Separations in Structures for Lossless Ion Manipulations.Identification of structurally closely related monosaccharide and disaccharide isomers by PMP labeling in conjunction with IM-MS/MS.Binding of Dopamine to Alpha-Synuclein is Mediated by Specific Conformational States.Evaluation of Collision Cross Section Calibrants for Structural Analysis of Lipids by Traveling Wave Ion Mobility-Mass Spectrometry.Achieving High Resolution Ion Mobility Separations Using Traveling Waves in Compact Multiturn Structures for Lossless Ion Manipulations.Large-scale production and structural and biophysical characterizations of the human hepatitis B virus polymerase.Ion mobility mass spectrometry of proteins and protein assemblies.
P2860
Q26851316-975E3774-19C7-4528-A275-0F779DCA4A2DQ27685219-3F465119-6417-48BB-8940-524FB5B72680Q28392711-7F78A5A3-0A99-4B19-805F-E91B63CAE614Q28829298-CFE05488-3232-41A6-8006-DDD43A7C9780Q30009168-D8B0DC60-89DF-4ACF-8ACD-0C47057FA1D0Q30153272-95105983-B1BB-402E-B6BD-769F09D4BA54Q30155201-C28D9187-2E34-42C1-9ECE-500E9081BC78Q30370918-8058921F-7DE7-4ED5-AD8E-D212E4E0E826Q30372486-BE0C98E9-BB4E-42D4-8DAA-7002B126ED2EQ30379165-48020C2B-1F68-43F1-8CD3-AAC13F51B45FQ30402284-2B737565-85CA-4171-8F0D-C894518A8324Q30923923-0E7438DD-BBDB-4EB3-AA90-72C146DC9138Q33453395-443CCC77-FA12-41FE-9335-81116713B206Q33658957-7E40A96D-60B3-4BB9-A651-35A3C8907B4CQ33859337-D0562EA9-BAB8-4DFD-9F8D-4A509DA11A48Q33995509-23A2FBE6-60FF-40BC-8FA3-7D8F291C602BQ34139586-0C2439C1-B58A-4EF0-99C0-49AC820A4999Q34182669-8F879647-6A94-4B0A-8D39-D2BF2A571F47Q34245065-20C71AFC-8761-4A3A-A985-4C865B8407DEQ34474082-03D4E3EC-8D49-4F36-9265-A44EE698DE20Q34490108-16637F52-0346-4F79-954B-72914283839FQ34549853-01022462-9E0A-4B6F-A38C-BFE369CD62F1Q34697634-0E78A0DE-6815-4ED1-99DB-6A2CB6080692Q35076599-F2D8EBAC-DCA1-4A52-8BEC-47731639210FQ35172824-C58752B3-B6B0-4DDF-B730-D36ECC65B8EFQ35250293-EAE32D20-5548-4A73-8DDA-A95D1AB41976Q35683604-A0AF3A17-E411-4B43-A32B-D1F442A75E6FQ35804370-B27FE746-78BD-4656-8502-A7F7DCF1E679Q36061554-43D3BBBB-1805-44B2-A3DA-8CBD8503CF9BQ36138981-DAAEC52E-2F4A-4CB2-AF51-C92278690FAFQ36182562-C431251C-222E-4B2F-9D15-6A81884BBDDEQ36224635-486DE042-FE38-4700-B41E-A9C477CA9859Q36386966-AADC5CD5-F6A4-4D77-BF6D-8A0D42F80991Q36566649-A0368AC1-2CE5-4B10-B91C-795E350373C7Q37010621-A20C5CFE-4B4E-4A54-9356-56CFE6F6189FQ37083478-BB77ABE2-A6EE-43BF-B2C6-C48D668DA7A8Q37113867-E5CEB873-6AA4-420A-BED0-CE5BBB6E73B0Q37638960-7ED10031-8272-4B3E-B21A-C5D65B9C1B04Q37644005-9D62758D-F5DC-47D6-B4F3-F0F0C016A331Q37737098-92A73B3F-7EF1-4689-8C19-D7C595E30783
P2860
Deciphering drift time measurements from travelling wave ion mobility spectrometry-mass spectrometry studies.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Deciphering drift time measure ...... try-mass spectrometry studies.
@en
Deciphering drift time measure ...... try-mass spectrometry studies.
@en-gb
Deciphering drift time measure ...... try-mass spectrometry studies.
@nl
type
label
Deciphering drift time measure ...... try-mass spectrometry studies.
@en
Deciphering drift time measure ...... try-mass spectrometry studies.
@en-gb
Deciphering drift time measure ...... try-mass spectrometry studies.
@nl
prefLabel
Deciphering drift time measure ...... try-mass spectrometry studies.
@en
Deciphering drift time measure ...... try-mass spectrometry studies.
@en-gb
Deciphering drift time measure ...... try-mass spectrometry studies.
@nl
P2860
P50
P356
P1476
Deciphering drift time measure ...... try-mass spectrometry studies.
@en
P2093
Iain Campuzano
Tom W Knapman
P2860
P304
P356
10.1255/EJMS.947
P577
2009-01-01T00:00:00Z