Targeted data acquisition for improved reproducibility and robustness of proteomic mass spectrometry assays.
about
Essential but not vulnerable: indazole sulfonamides targeting inosine monophosphate dehydrogenase as potential leads against Mycobacterium tuberculosisA selective inhibitor reveals PI3Kγ dependence of T(H)17 cell differentiationNew IDH1 mutant inhibitors for treatment of acute myeloid leukemiaTHPP target assignment reveals EchA6 as an essential fatty acid shuttle in mycobacteriaBiochemical Screening of Five Protein Kinases from Plasmodium falciparum against 14,000 Cell-Active CompoundsIdentification of KasA as the cellular target of an anti-tubercular scaffoldIntegrated proteomic analysis of major isoaspartyl-containing proteins in the urine of wild type and protein L-isoaspartate O-methyltransferase-deficient mice.Discovery- and target-based protein quantification using iTRAQ and pulsed Q collision induced dissociation (PQD).Intelligent data acquisition blends targeted and discovery methods.Hsp90 inhibition differentially destabilises MAP kinase and TGF-beta signalling components in cancer cells revealed by kinase-targeted chemoproteomics.Enhanced methylarginine characterization by post-translational modification-specific targeted data acquisition and electron-transfer dissociation mass spectrometry.Tracking cancer drugs in living cells by thermal profiling of the proteome.Catalytic in vivo protein knockdown by small-molecule PROTACs.Isobaric labeling-based relative quantification in shotgun proteomics.Identification of proteins and phosphoproteins using pulsed Q collision induced dissociation (PQD).Isotopic signature transfer and mass pattern prediction (IsoStamp): an enabling technique for chemically-directed proteomics.Thermal proteome profiling for unbiased identification of direct and indirect drug targets using multiplexed quantitative mass spectrometry.Thermal proteome profiling monitors ligand interactions with cellular membrane proteins.Advances in Proteomic Technologies and Its Contribution to the Field of CanceriTRAQ labeling is superior to mTRAQ for quantitative global proteomics and phosphoproteomics.Proteomics analysis of human tears from aqueous-deficient and evaporative dry eye patients.Comparison of protein expression ratios observed by sixplex and duplex TMT labeling methodA Comparative Proteome Analysis of Escherichia coli ΔrelA Mutant Cells.An insight into iTRAQ: where do we stand now?Isobaric tagging approaches in quantitative proteomics: the ups and downs.Quantitative mass spectrometry in proteomics: critical review update from 2007 to the present.The application of quantification techniques in proteomics for biomedical research.Discovery and Characterization of GSK2801, a Selective Chemical Probe for the Bromodomains BAZ2A and BAZ2B.Monitoring Cell-surface N-Glycoproteome Dynamics by Quantitative Proteomics Reveals Mechanistic Insights into Macrophage Differentiation.A Strategy to Combine Sample Multiplexing with Targeted Proteomics Assays for High-Throughput Protein Signature Characterization.Antimalarial efficacy of MMV390048, an inhibitor of Plasmodium phosphatidylinositol 4-kinase.Functional interdependence of BRD4 and DOT1L in MLL leukemia.Enhancement of mass spectrometry performance for proteomic analyses using high-field asymmetric waveform ion mobility spectrometry (FAIMS).Improved Quantitative Plant Proteomics via the Combination of Targeted and Untargeted Data AcquisitionChemoproteomics-based design of potent LRRK2-selective lead compounds that attenuate Parkinson's disease-related toxicity in human neurons.Ultra-high intra-spectrum mass accuracy enables unambiguous identification of fragment reporter ions in isobaric multiplexed quantitative proteomics.Click chemistry enables preclinical evaluation of targeted epigenetic therapies.Thermal profiling reveals phenylalanine hydroxylase as an off-target of panobinostat.Characterization of human reflex tear proteome reveals high expression of lacrimal proline-rich protein 4 (PRR4).Taming the isobaric tagging elephant in the room in quantitative proteomics.
P2860
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P2860
Targeted data acquisition for improved reproducibility and robustness of proteomic mass spectrometry assays.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին 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
Targeted data acquisition for ...... omic mass spectrometry assays.
@ast
Targeted data acquisition for ...... omic mass spectrometry assays.
@en
Targeted data acquisition for ...... omic mass spectrometry assays.
@nl
type
label
Targeted data acquisition for ...... omic mass spectrometry assays.
@ast
Targeted data acquisition for ...... omic mass spectrometry assays.
@en
Targeted data acquisition for ...... omic mass spectrometry assays.
@nl
prefLabel
Targeted data acquisition for ...... omic mass spectrometry assays.
@ast
Targeted data acquisition for ...... omic mass spectrometry assays.
@en
Targeted data acquisition for ...... omic mass spectrometry assays.
@nl
P2093
P2860
P1476
Targeted data acquisition for ...... omic mass spectrometry assays.
@en
P2093
Frank Fischer
Gavain Sweetman
Manja Lang
Marcus Bantscheff
Mikhail M Savitski
P2860
P2888
P304
P356
10.1016/J.JASMS.2010.01.012
P577
2010-01-25T00:00:00Z
P5875
P6179
1024071242