about
Lessons in de novo peptide sequencing by tandem mass spectrometryImplementation of electron-transfer dissociation on a hybrid linear ion trap-orbitrap mass spectrometerPaired single residue-transposed Lys-N and Lys-C digestions for label-free identification of N-terminal and C-terminal MS/MS peptide product ions: ultrahigh resolution Fourier transform ion cyclotron resonance mass spectrometry and tandem mass spectComprehensive comparison of collision induced dissociation and electron transfer dissociation.Proteomics and the analysis of proteomic data: 2013 overview of current protein-profiling technologies.Systematic characterization of high mass accuracy influence on false discovery and probability scoring in peptide mass fingerprinting.A hybrid, de novo based, genome-wide database search approach applied to the sea urchin neuropeptidomeAnalysis of tandem mass spectra by FTMS for improved large-scale proteomics with superior protein quantification.Negative electron transfer dissociation of glycosaminoglycans.MISS-Prot: web server for self/non-self discrimination of protein residue networks in parasites; theory and experiments in Fasciola peptides and Anisakis allergens.Spectral archives: extending spectral libraries to analyze both identified and unidentified spectraInvestigation of VUV Photodissociation Propensities Using Peptide Libraries.Recent developments in quantitative proteomics.UniNovo: a universal tool for de novo peptide sequencing.Direct quantitation of peptide mixtures without standards using clusters formed by electrospray ionization mass spectrometry.Electron-capture dissociation (ECD), collision-induced dissociation (CID) and ECD/CID in a linear radio-frequency-free magnetic cell.A new bioinformatics approach to natural protein collections: permutation structure contrasts of viral and cellular systems.A proteomics grade electron transfer dissociation-enabled hybrid linear ion trap-orbitrap mass spectrometer.The generating function of CID, ETD, and CID/ETD pairs of tandem mass spectra: applications to database searchProbing the gas-phase folding kinetics of peptide ions by IR activated DR-ECD.A draft map of rhesus monkey tissue proteome for biomedical research.Database independent proteomics analysis of the ostrich and human proteome.Ultra high resolution linear ion trap Orbitrap mass spectrometer (Orbitrap Elite) facilitates top down LC MS/MS and versatile peptide fragmentation modes.Sequencing-grade de novo analysis of MS/MS triplets (CID/HCD/ETD) from overlapping peptidesPeptide identification by tandem mass spectrometry with alternate fragmentation modes.Spectra library assisted de novo peptide sequencing for HCD and ETD spectra pairsImplementation of Activated Ion Electron Transfer Dissociation on a Quadrupole-Orbitrap-Linear Ion Trap Hybrid Mass SpectrometerProtein primary structure using orthogonal fragmentation techniques in Fourier transform mass spectrometry.Electron capture dissociation in the analysis of protein phosphorylation.Accurate mass measurements in proteomics.The effect of phosphorylation on the electron capture dissociation of peptide ions.Top-down MS, a powerful complement to the high capabilities of proteolysis proteomics.Tools for exploring the proteomosphere.De novo sequencing of unique sequence tags for discovery of post-translational modifications of proteinsToward proteome-scale identification and quantification of isoaspartyl residues in biological samples.Proteomics of extremophiles.Algorithms for the de novo sequencing of peptides from tandem mass spectra.Increased throughput of proteomics analysis by multiplexing high-resolution tandem mass spectra.Evolution of egg coats: linking molecular biology and ecology.Evaluating de novo sequencing in proteomics: already an accurate alternative to database-driven peptide identification?
P2860
Q28088569-80006368-B19E-4257-862A-A34977BAF429Q28298361-5B575729-B16E-464B-A3E3-70212B4DD042Q30278954-5E8F29DB-D667-4DC4-B25C-D56E8D5C2884Q30486810-E6F6A771-70D4-410E-8DA7-31D02DA86B6AQ30601945-870B25E7-24FB-45C3-9A98-59E5D66E8D62Q33304894-B7B79DD2-DDAE-44C0-984F-59D0CD65584EQ33517721-379349A5-2661-45B7-8C8E-CDDC6B0F00D4Q33567813-D88D9791-5916-4AF6-8CFE-C3E533811B66Q33848414-7B128C12-22C0-4D3A-B383-FAF15679A044Q33863697-D4E94C2F-C19D-4F09-AD43-16BB9D79D0F7Q33900045-76F3CED5-C19A-4D47-B1ED-CB0EAC4EF0FEQ34085553-6288B465-DFBE-4890-A594-11BBC00F12F9Q34307294-0CEEC01D-2BB0-4ACE-844B-AB47F49E5427Q34350819-66150283-256F-473C-B0E8-FC4C2C71A214Q34610718-F2E05034-3AD7-49E2-8FEB-02426136231CQ34671519-E9D7AA0E-5400-4D63-8867-356A9E240B9AQ34679996-60B5067B-0407-4706-A324-453C53D11464Q34793861-45B25E86-DAF3-4A63-B797-8E6CDA366237Q35006588-720E163F-DB16-44D2-BC14-11651E2D8355Q35051531-56340603-9BA2-4982-B284-52C1D410E3FBQ35606771-66763342-8592-4CB6-9F37-F29BC2FA2648Q35673775-745F12AD-2976-4540-94A3-EBCD4025271BQ35863304-7C6B682B-6107-42C3-990B-3AA7DADD4AA6Q36112963-37C5EB62-0D04-456A-B78F-24F5B4955C41Q36211835-66383B69-4372-47BE-8389-23AF833C9478Q36268639-98509975-5B85-4F33-A0A5-05D234402CF5Q36337709-B36C8271-BE37-4359-BA08-76949446690FQ36445589-B0CAF443-5B90-4EFA-AC24-63470C73379EQ36787208-E90B9098-6516-44A6-B351-7AD16C307673Q36890553-87888592-A7A2-417D-B473-020668BCE6B2Q36943183-360CCD93-83A5-4ED3-AEC5-5A5F0880D20EQ37004962-4D3A0541-9854-4C2B-B981-C5D00B3D6BD3Q37268823-E6709B9B-A9B4-4168-8B6D-464238E98209Q37363288-5A41F806-9291-489A-8A69-822DC1C64608Q37373293-6BF486D7-E837-4B5C-9373-C5CA4D433815Q37868750-18D5336C-99D6-470D-A0DC-7BA14DFB03F0Q37945792-633FB1D6-AD30-4F60-89D1-02FBD7832D31Q38259224-1B9BDB04-7FF1-4852-99F0-41CDF0ADAE96Q38533745-81BC7ED4-1922-4B09-A1DA-B44468867E67Q38860365-A17F9796-9B1D-473B-8390-AFA96083E4C3
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականին հրատարակուած գիտական յօդուած
@hyw
2005 թվականին 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
Proteomics-grade de novo sequencing approach
@ast
Proteomics-grade de novo sequencing approach
@en
Proteomics-grade de novo sequencing approach
@nl
type
label
Proteomics-grade de novo sequencing approach
@ast
Proteomics-grade de novo sequencing approach
@en
Proteomics-grade de novo sequencing approach
@nl
prefLabel
Proteomics-grade de novo sequencing approach
@ast
Proteomics-grade de novo sequencing approach
@en
Proteomics-grade de novo sequencing approach
@nl
P50
P3181
P356
P1476
Proteomics-grade de novo sequencing approach
@en
P2093
Mikhail M Savitski
P304
P3181
P356
10.1021/PR050288X
P407
P577
2005-11-01T00:00:00Z