about
The human early-life exposome (HELIX): project rationale and designTowards the identification of unknown neuropeptide precursor-processing enzymes: Design and synthesis of a new family of dipeptidyl phosphonate activity probes for substrate-based protease identification.Activity-based probes for monitoring postproline protease activity.Mass spectrometry-based proteomics for systems biology.Validation of semaphorin 7A and ala-β-his-dipeptidase as biomarkers associated with the conversion from clinically isolated syndrome to multiple sclerosisTargeted proteomics of the eicosanoid biosynthetic pathway completes an integrated genomics-proteomics-metabolomics picture of cellular metabolism.Targeted proteomics reveals strain-specific changes in the mouse insulin and central metabolic pathways after a sustained high-fat dietNetwork-based proteomic approaches reveal the neurodegenerative, neuroprotective and pain-related mechanisms involved after retrograde axonal damage.Quantification of ErbB network proteins in three cell types using complementary approaches identifies cell-general and cell-type-specific signaling proteins.Profiling the secretome and extracellular proteome of the potato late blight pathogen Phytophthora infestans.Peptide Selection for Targeted Protein Quantitation.System-Wide Quantitative Proteomics of the Metabolic Syndrome in Mice: Genotypic and Dietary Effects.Range of protein detection by selected/multiple reaction monitoring mass spectrometry in an unfractionated human cell culture lysate.TAPAS: tools to assist the targeted protein quantification of human alternative splice variants.A new side opening on prolyl oligopeptidase revealed by electron microscopy.Using peptidyl aldehydes in activity-based proteomics.Primary structure, recombinant expression and homology modelling of human brain prolyl oligopeptidase, an important therapeutic target in the treatment of neuropsychiatric diseases.QCloud: A cloud-based quality control system for mass spectrometry-based proteomics laboratories.Integrative quantitation enables a comprehensive proteome comparison of two Mycoplasma pneumoniae genetic perturbations.Influence of the digestion technique, protease, and missed cleavage peptides in protein quantitation.HCD-only fragmentation method balances peptide identification and quantitation of TMT-labeled samples in hybrid linear ion trap/orbitrap mass spectrometers.DIA+: A data-independent acquisition method combines multiple precursor charges to improve peptide signalProteomic Profiling of Microtubule Self-organization in M-phaseIdentification of N-terminal protein acetylation and arginine methylation of the voltage-gated sodium channel in end-stage heart failure human heartLifelong Exercise Training Modulates Cardiac Mitochondrial Phosphoproteome in RatsA comprehensive proteomics-based interaction screen that links DYRK1A to RNF169 and to the DNA damage responseThe cochaperone CHIP marks Hsp70- and Hsp90-bound substrates for degradation through a very flexible mechanismChromatin capture links the metabolic enzyme AHCY to stem cell proliferationMolecular signature of cardiogenic shockIsotopologue Multipoint Calibration for Proteomics Biomarker Quantification in Clinical Practice
P50
Q29109880-E3CB640B-111E-4FD3-8E2A-0028894AF15FQ33735525-C14F5D3B-8E10-44C5-AA43-6E47A52C55DEQ33761011-70760C70-C61E-4D24-AE92-678B56A9F3BDQ34240691-84F43154-E961-4553-BE2A-43285D35278BQ34537574-C459B18C-A824-40CF-AA99-4D6EC7D1BA07Q36089862-9D26A509-7598-40F3-9B05-01AA25AA056DQ37072653-C269B708-6628-47D6-AB5E-4E78C80312B2Q37735537-467974E0-A1D8-4A59-9E51-A133FE026B1EQ38439942-F31546D2-3328-4064-B1C1-F051F67A7276Q38476568-F98C79E8-2ADD-4FDF-8377-EFC2F352841EQ39013079-38C52554-0BC7-4A6C-8A99-6BC6D985A30AQ39114389-45BE8AA4-5301-487B-8AA8-75125EBA573FQ39350195-406E00A8-1CA2-4C6D-BBEA-F695F10686A7Q42670439-224CADE8-1BB5-4179-B5FB-131FB53EE770Q43270874-985C4662-CA33-461A-9346-8798CCB92C21Q45991972-A09E76B3-99FE-457E-BE51-74D3567ECB31Q46444548-D022E3FA-2691-4380-BCD4-6DD8F955809CQ48260096-AE683F1A-8151-4ED8-A20E-B075357B9C07Q51073279-DF4C74D5-8241-4005-83D5-7524A93B48C8Q53037527-15408A3C-A6D2-40AF-B28D-43AA506603B2Q54299840-79F58770-B17E-403E-9B74-1763CAAA71F5Q57180207-37411A0A-34DF-42CD-9F91-DA8673F9AF8EQ57707796-3A89B5AE-FED3-4681-9A14-33611C8E617FQ57707814-37458447-DCCD-4250-918B-BA89E515EC7FQ57707824-97553FD5-F51F-40C7-B383-484302A9A856Q64052890-B8F5E2BD-C2B2-4D46-94EC-7FE3863A318EQ64057115-6A593945-8A69-4A17-8F4D-269EAC9E7D0FQ64059255-03CBF516-F2A4-4063-877D-D07CED9BD278Q91269690-14FE71BA-00F1-43F9-922D-18C59E995048Q92434832-EB4544CB-0E5E-48A6-A717-99B17715A3FC
P50
description
hulumtues
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հետազոտող
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Eduard Sabidó Aguadé
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Eduard Sabidó
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Eduard Sabidó
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Eduard Sabidó Aguadé
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Eduard Sabidó Aguadé
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Eduard Sabidó
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Eduard Sabidó
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Eduard Sabidó
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Eduard Sabidó
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Eduard Sabidó
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P1053
F-7914-2015
P106
P1273
P21
P31
P3829
P496
0000-0001-6506-7714