Stepwise deamidation of ribonuclease A at five sites determined by top down mass spectrometry
about
Top-down proteomics in health and disease: challenges and opportunitiesTop-down quantitative proteomics identified phosphorylation of cardiac troponin I as a candidate biomarker for chronic heart failureTop-down high-resolution mass spectrometry of cardiac myosin binding protein C revealed that truncation alters protein phosphorylation stateSimultaneous assessment of Asp isomerization and Asn deamidation in recombinant antibodies by LC-MS following incubation at elevated temperaturesStructure-based prediction of asparagine and aspartate degradation sites in antibody variable regionsIrreversible thermal denaturation of cytochrome C studied by electrospray mass spectrometry.Effect of protein structure on deamidation rate in the Fc fragment of an IgG1 monoclonal antibody.Enhanced detection and identification of glycopeptides in negative ion mode mass spectrometry.Top-down tandem mass spectrometry on RNase A and B using a Qh/FT-ICR hybrid mass spectrometer.Assignments of RNase A by ADAPT-NMR and enhancer.Top-down study of β2-microglobulin deamidationAutomethylation of CARM1 allows coupling of transcription and mRNA splicingMass spectrometric analysis of asparagine deamidation and aspartate isomerization in polypeptides.Analysis of intact protein isoforms by mass spectrometry.Comprehensive analysis of protein modifications by top-down mass spectrometryCharacterization of deamidation of barstar using electrospray ionization quadrupole time-of-flight mass spectrometry, which stabilizes an equilibrium unfolding intermediate.Top-down mass spectrometry: recent developments, applications and perspectivesDecoding protein modifications using top-down mass spectrometryTop-down MS, a powerful complement to the high capabilities of proteolysis proteomics.An integrated top-down and bottom-up strategy for broadly characterizing protein isoforms and modificationsDelineating Anopheles gambiae coactivator associated arginine methyltransferase 1 automethylation using top-down high resolution tandem mass spectrometry.Effects of SecE depletion on the inner and outer membrane proteomes of Escherichia coliDetection, evaluation and minimization of nonenzymatic deamidation in proteomic sample preparation.Top-Down Mass Spectrometry: Proteomics to Proteoforms.Label-free, direct localization and relative quantitation of the RNA nucleobase methylations m6A, m5C, m3U, and m5U by top-down mass spectrometry.Unusual fragmentation of β-linked peptides by ExD tandem mass spectrometryDefining intact protein primary structures from saliva: a step toward the human proteome project.Deamidation destabilizes and triggers aggregation of a lens protein, betaA3-crystallin.Unraveling molecular complexity of phosphorylated human cardiac troponin I by top down electron capture dissociation/electron transfer dissociation mass spectrometry.Deamidation of alpha-synuclein.Mass measurement and top-down HPLC/MS analysis of intact monoclonal antibodies on a hybrid linear quadrupole ion trap-Orbitrap mass spectrometer.
P2860
Q27002139-E0432DBE-0B63-40BE-87E9-DC0B1BCFB497Q28243166-B69760C7-C764-4E67-8B95-C31391901F9AQ28249208-968C6CE6-B9EB-445F-B660-3145E6F2C561Q28478926-A27462F3-BC0B-4BB9-AD38-9697503BC976Q28539968-374C398A-072F-473B-9D54-A6620A96D20BQ30374787-FBACA25C-1ACF-458C-AF3B-8F80BF37395FQ30378308-0B69E764-EA12-4794-8B25-94AE243E1D02Q30991632-73845DFB-FEB8-46F9-9793-0D539DFD57BBQ33893181-78A8AEB3-EFD0-412C-94D1-26CB5DFE1849Q34173806-82F54249-D696-4465-93D5-0881A4ED54B0Q34219743-91F33C1E-7F1A-40CC-A13B-60AB5EDF1585Q34779467-5E78E0BC-2A6A-4489-8796-F6F27A432D8CQ35015203-58A6D1C5-7015-4766-BBB6-7C0A50E48E02Q35111010-77E52DF2-2898-4BB4-85D2-E09BB11A650BQ35873932-A12E4F6E-DA12-4704-BE52-7F087AAAEB68Q36111510-15A5543B-E8D8-44DC-B7AD-326D69E72398Q36419886-9DBDD92E-627D-48C3-8FBD-C5ACD3EEC7DEQ36628274-A625F3EC-A9A9-40F6-8CDE-4AB2BA94D93DQ37004962-0BE9E559-9754-4ED5-8C8D-85B710D8B848Q37220000-06C1350A-826C-43CB-B54A-90B26CAE4681Q37414479-3E2CAEF3-B622-436C-BA16-415F069791E3Q38608554-5EE57F59-2802-4E2B-8229-7F16E68DE287Q38901019-DB0B82F5-AF58-4FBF-B563-D176B96F1CD2Q39038792-CEC1CFD8-3736-450F-B1EA-5F99D6AFB750Q41510762-2E8387F1-2AF9-423B-A4BD-436DEA7EC4A5Q42092599-1FB5F690-1D5B-4ED2-A5EC-E69226762B0AQ42108659-67CE3434-3E8A-4548-BBE1-E88CA4642B35Q42417058-00672488-ACBC-4468-B978-605AF0F81459Q42435438-8943B53C-7312-419A-8130-D25B33D8E84FQ42635838-90C2D752-767F-440D-BB6E-DDE501ECCD33Q46905334-525A4D89-9A57-46B6-8F7F-5B01C4F020E9
P2860
Stepwise deamidation of ribonuclease A at five sites determined by top down mass spectrometry
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Stepwise deamidation of ribonu ...... by top down mass spectrometry
@en
type
label
Stepwise deamidation of ribonu ...... by top down mass spectrometry
@en
prefLabel
Stepwise deamidation of ribonu ...... by top down mass spectrometry
@en
P2093
P2860
P356
P1433
P1476
Stepwise deamidation of ribonu ...... by top down mass spectrometry
@en
P2093
Ervin Welker
Fred W McLafferty
Huili Zhai
Klaas J van Wijk
Vlad Zabrouskov
Xuemei Han
P2860
P304
P356
10.1021/BI0517584
P407
P577
2006-01-01T00:00:00Z