Value of using multiple proteases for large-scale mass spectrometry-based proteomics
about
Structural Proteomics of HerpesvirusesSerology in the 21st century: the molecular-level analysis of the serum antibody repertoireProteomic discovery of host kinase signaling in bacterial infectionsMass spectrometry-based methods for identifying oxidized proteins in disease: advances and challengesA peptide-based method for 13C Metabolic Flux Analysis in microbial communitiesMultiple proteases to localize oxidation sitesA proteomic chronology of gene expression through the cell cycle in human myeloid leukemia cellsSequence comparison, molecular modeling, and network analysis predict structural diversity in cysteine proteases from the Cape sundew, Drosera capensisPepsin-Containing Membranes for Controlled Monoclonal Antibody Digestion Prior to Mass Spectrometry Analysis.Translatomics combined with transcriptomics and proteomics reveals novel functional, recently evolved orphan genes in Escherichia coli O157:H7 (EHEC).Evaluation and optimization of mass spectrometric settings during data-dependent acquisition mode: focus on LTQ-Orbitrap mass analyzersMultiple enzymatic digestions and ion mobility separation improve quantification of bacterial ribosomal proteins by data independent acquisition liquid chromatography-mass spectrometryEstimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes.Improving protein identification from tandem mass spectrometry data by one-step methods and integrating data from other platforms.Ultrafast ultraviolet photodissociation at 193 nm and its applicability to proteomic workflows.Pressurized pepsin digestion in proteomics: an automatable alternative to trypsin for integrated top-down bottom-up proteomics.Confetti: a multiprotease map of the HeLa proteome for comprehensive proteomics.N-terminal Proteomics Assisted Profiling of the Unexplored Translation Initiation Landscape in Arabidopsis thalianaSimulating and validating proteomics data and search results.Comprehensive analysis of protein digestion using six trypsins reveals the origin of trypsin as a significant source of variability in proteomics.Extraction, Enrichment, Solubilization, and Digestion Techniques for Membrane Proteomics.An Optimized Shotgun Strategy for the Rapid Generation of Comprehensive Human Proteomes.Combinatorial peptide ligand library treatment followed by a dual-enzyme, dual-activation approach on a nanoflow liquid chromatography/orbitrap/electron transfer dissociation system for comprehensive analysis of swine plasma proteome.GProX, a user-friendly platform for bioinformatics analysis and visualization of quantitative proteomics dataProtein painting reveals solvent-excluded drug targets hidden within native protein-protein interfaces.Differential analysis of N-glycoproteome between hepatocellular carcinoma and normal human liver tissues by combination of multiple protease digestion and solid phase based labeling.Peptidomic discovery of short open reading frame-encoded peptides in human cells.Yeast proteomics and protein microarraysMicrobiology and proteomics, getting the best of both worlds!UniNovo: a universal tool for de novo peptide sequencing.Cardiac extracellular proteome profiling and membrane topology analysis using glycoproteomics.High-definition de novo sequencing of crustacean hyperglycemic hormone (CHH)-family neuropeptidesLarge-scale collision cross-section profiling on a traveling wave ion mobility mass spectrometer.Protein analysis by shotgun/bottom-up proteomicsCOMPASS: a suite of pre- and post-search proteomics software tools for OMSSAComparative proteomic profiling of pancreatic ductal adenocarcinoma cell lines.Proteome sequencing goes deep.Adenovirus composition, proteolysis, and disassembly studied by in-depth qualitative and quantitative proteomicsNANOG is multiply phosphorylated and directly modified by ERK2 and CDK1 in vitro.Fast photochemical oxidation of proteins for epitope mapping
P2860
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P2860
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
description
2010 nî lūn-bûn
@nan
2010 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մարտին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@ast
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@en
type
label
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@ast
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@en
prefLabel
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@ast
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@en
P2093
P2860
P356
P1476
Value of using multiple proteases for large-scale mass spectrometry-based proteomics
@en
P2093
Craig D Wenger
Danielle L Swaney
Joshua J Coon
P2860
P304
P356
10.1021/PR900863U
P577
2010-03-01T00:00:00Z