scholarly article | Q13442814 |
P50 | author | Yehia Mechref | Q38800719 |
P2093 | author name string | Milos V Novotny | |
William R Alley | |||
P433 | issue | 1 | |
P304 | page(s) | 161-170 | |
P577 | publication date | 2009-01-01 | |
P1433 | published in | Rapid Communications in Mass Spectrometry | Q3419582 |
P1476 | title | Characterization of glycopeptides by combining collision-induced dissociation and electron-transfer dissociation mass spectrometry data | |
P478 | volume | 23 |
Q86517058 | A comparison of energy-resolved vibrational activation/dissociation characteristics of protonated and sodiated high mannose N-glycopeptides |
Q36286726 | An N-glycosylation Analysis of Human Alpha-2-Macroglobulin Using an Integrated Approach |
Q36651493 | Analytical glycobiology at high sensitivity: current approaches and directions |
Q53313471 | Characterisation of glycoproteins using a quadrupole time-of-flight mass spectrometer configured for electron transfer dissociation. |
Q39206787 | Characterization of host-cell line specific glycosylation profiles of early transmitted/founder HIV-1 gp120 envelope proteins |
Q36002217 | Characterization of protein N-glycosylation by tandem mass spectrometry using complementary fragmentation techniques |
Q30658883 | Characterizing O-linked glycopeptides by electron transfer dissociation: fragmentation rules and applications in data analysis |
Q38688788 | Clinical diagnostics and therapy monitoring in the congenital disorders of glycosylation |
Q88380793 | Comparison of Collisional and Electron-Based Dissociation Modes for Middle-Down Analysis of Multiply Glycosylated Peptides |
Q42666038 | Comparison of Glycopeptide Fragmentation by Collision Induced Dissociation and Ultraviolet Photodissociation. |
Q34286011 | Confident assignment of site-specific glycosylation in complex glycoproteins in a single step |
Q35913681 | Cross Reactive Material 197 glycoconjugate vaccines contain privileged conjugation sites |
Q44233864 | Detection and characterization of low abundance glycopeptides via higher-energy C-trap dissociation and orbitrap mass analysis |
Q35192876 | Direct site-specific glycoform identification and quantitative comparison of glycoprotein therapeutics: imiglucerase and velaglucerase alfa |
Q38932357 | Distinctive MS/MS Fragmentation Pathways of Glycopeptide-Generated Oxonium Ions Provide Evidence of the Glycan Structure. |
Q38307330 | Engaging challenges in glycoproteomics: recent advances in MS-based glycopeptide analysis |
Q84742777 | Enrichment of glycopeptides for glycan structure and attachment site identification |
Q30410860 | Front-end electron transfer dissociation: a new ionization source |
Q37992551 | Gas-phase dissociation of glycosylated peptide ions |
Q38691669 | Glycan Analysis by Ion Mobility-Mass Spectrometry |
Q34627486 | GlycoPep Detector: a tool for assigning mass spectrometry data of N-linked glycopeptides on the basis of their electron transfer dissociation spectra |
Q36074398 | GlycoPep grader: a web-based utility for assigning the composition of N-linked glycopeptides |
Q34434010 | Glycoform analysis of recombinant and human immunodeficiency virus envelope protein gp120 via higher energy collisional dissociation and spectral-aligning strategy |
Q35763008 | Glycopeptide Site Heterogeneity and Structural Diversity Determined by Combined Lectin Affinity Chromatography/IMS/CID/MS Techniques |
Q49812897 | Glycoprotein Enrichment Analytical Techniques: Advantages and Disadvantages |
Q38021676 | Glycoprotein analysis using mass spectrometry: unraveling the layers of complexity |
Q93348073 | Glycoproteomic markers of hepatocellular carcinoma-mass spectrometry based approaches |
Q92766714 | Glycosylation of viral surface proteins probed by mass spectrometry |
Q37712517 | High-sensitivity analytical approaches for the structural characterization of glycoproteins |
Q47212798 | Human disease glycomics: technology advances enabling protein glycosylation analysis - part 1. |
Q46675118 | Identification of hyaluronidase and phospholipase B in Lachesis muta rhombeata venom |
Q42182926 | Increasing the productivity of glycopeptides analysis by using higher-energy collision dissociation-accurate mass-product-dependent electron transfer dissociation |
Q37808392 | Instruments and Methods in Proteomics |
Q38824113 | Intact glycopeptide characterization using mass spectrometry |
Q37057130 | Ion Mobility-Mass Correlation Trend Line Separation of Glycoprotein Digests without Deglycosylation |
Q47422195 | Ion mobility-resolved collision-induced dissociation and electron transfer dissociation of N-glycopeptides: gathering orthogonal connectivity information from a single mass-selected precursor ion population |
Q33358345 | Mammalian protein glycosylation--structure versus function |
Q33748821 | Mass Spectrometric Top-Down Analysis of Proteins |
Q88095064 | Mass Spectrometry Approaches to Glycomic and Glycoproteomic Analyses |
Q34454989 | Mass spectrometry based glycoproteomics--from a proteomics perspective |
Q46243684 | Mass spectrometry for protein sialoglycosylation |
Q38215756 | Mass spectrometry-based N-glycoproteomics for cancer biomarker discovery |
Q37388959 | N- and O-glycosylation in the murine synaptosome |
Q46818619 | N-glycosidase treatment with 18O labeling and de novo sequencing argues for flagellin FliC glycopolymorphism in Pseudomonas aeruginosa |
Q30843574 | New glycoproteomics software, GlycoPep Evaluator, generates decoy glycopeptides de novo and enables accurate false discovery rate analysis for small data sets |
Q40552365 | Obtaining complementary polypeptide sequence information from a single precursor ion packet via sequential ion mobility-resolved electron transfer and vibrational activation |
Q33707809 | One-pipeline approach achieving glycoprotein identification and obtaining intact glycopeptide information by tandem mass spectrometry |
Q96160474 | Optimal Dissociation Methods Differ for N- and O-glycopeptides |
Q90001814 | Parallel Determination of Polypeptide and Oligosaccharide Connectivities by Energy-Resolved Collison-Induced Dissociation of Protonated O-Glycopeptides Derived from Nonspecific Proteolysis |
Q31055040 | Parallel data acquisition of in-source fragmented glycopeptides to sequence the glycosylation sites of proteins |
Q36904022 | Quantification of glycopeptides by multiple reaction monitoring liquid chromatography/tandem mass spectrometry |
Q38200920 | Recent developments and applications of electron transfer dissociation mass spectrometry in proteomics |
Q37297209 | Recent trends in analytical and structural glycobiology |
Q35204455 | Relative quantitation of glycopeptides based on stable isotope labeling using MALDI-TOF MS. |
Q36351393 | Relative quantitation of protein nitration by liquid chromatography-mass spectrometry using isotope-coded dimethyl labeling and chemoprecipitation. |
Q35144097 | Selective chemoprecipitation and subsequent release of tagged species for the analysis of nitropeptides by liquid chromatography-tandem mass spectrometry |
Q28731567 | Semi-automated identification of N-Glycopeptides by hydrophilic interaction chromatography, nano-reverse-phase LC-MS/MS, and glycan database search |
Q42589849 | Simultaneous glycan-peptide characterization using hydrophilic interaction chromatography and parallel fragmentation by CID, higher energy collisional dissociation, and electron transfer dissociation MS applied to the N-linked glycoproteome of Campy |
Q51659792 | Site specific N-glycan profiling of NeuAc(α2-6)-Gal/GalNAc-binding bark Sambucus nigra agglutinin using LC-MSn revealed differential glycosylation. |
Q36539502 | Site-specific O-Glycosylation Analysis of Human Blood Plasma Proteins |
Q38785894 | Site-specific glycosylation of the Newcastle disease virus haemagglutinin-neuraminidase |
Q36554714 | Targeting the glycoproteome |
Q35884818 | The Art of Destruction: Optimizing Collision Energies in Quadrupole-Time of Flight (Q-TOF) Instruments for Glycopeptide-Based Glycoproteomics |
Q33893181 | Top-down tandem mass spectrometry on RNase A and B using a Qh/FT-ICR hybrid mass spectrometer |
Q38686919 | Two New Tools for Glycopeptide Analysis Researchers: A Glycopeptide Decoy Generator and a Large Data Set of Assigned CID Spectra of Glycopeptides |
Q83453924 | Ultrasensitive characterization of site-specific glycosylation of affinity-purified haptoglobin from lung cancer patient plasma using 10 μm i.d. porous layer open tubular liquid chromatography-linear ion trap collision-induced dissociation/electron |
Q36904008 | Use of CID/ETD mass spectrometry to analyze glycopeptides |
Q33400004 | Use of activated graphitized carbon chips for liquid chromatography/mass spectrometric and tandem mass spectrometric analysis of tryptic glycopeptides |
Search more.