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A simple and effective method for detecting phosphopeptides for phosphoproteomic analysis.
FLEXIQuant: a novel tool for the absolute quantification of proteins, and the simultaneous identification and quantification of potentially modified peptides.
Co-regulation proteomics reveals substrates and mechanisms of APC/C-dependent degradation.
Mass spectrometry meets the challenge of understanding the complexity of the lipoproteome: recent findings regarding proteins involved in dyslipidemia and cardiovascular disease.
mIMT-visHTS: A novel method for multiplexing isobaric mass tagged datasets with an accompanying visualization high throughput screening tool for protein profiling.
Multiple apolipoprotein kinetics measured in human HDL by high-resolution/accurate mass parallel reaction monitoring.
Current Trends and Future Perspectives of State-of-the-Art Proteomics Technologies Applied to Cardiovascular Disease Research.
Automation of PRM-dependent D3-Leu tracer enrichment in HDL to study the metabolism of apoA-I, LCAT and other apolipoproteins.
Unbiased and targeted mass spectrometry for the HDL proteome.
Spatiotemporal Multi-Omics Mapping Generates a Molecular Atlas of the Aortic Valve and Reveals Networks Driving Disease.
Context-enriched interactome powered by proteomics helps the identification of novel regulators of macrophage activation.
XINA: A Workflow for the Integration of Multiplexed Proteomics Kinetics Data with Network Analysis.
A Study into the ADP-Ribosylome of IFN-?-Stimulated THP-1 Human Macrophage-like Cells Identifies ARTD8/PARP14 and ARTD9/PARP9 ADP-Ribosylation.
The impact of PARPs and ADP-ribosylation on inflammation and host-pathogen interactions.