about
Understanding high-density lipoprotein function in disease: recent advances in proteomics unravel the complexity of its composition and biologyThe cytotoxicity of the α1-adrenoceptor antagonist prazosin is linked to an endocytotic mechanism equivalent to transport-P.Conformational Plasticity and Ligand Binding of Bacterial Monoacylglycerol LipaseCrystal structure of the Saccharomyces cerevisiae monoglyceride lipase Yju3pCleaning out the Litterbox of Proteomic Scientists' Favorite Pet: Optimized Data Analysis Avoiding Trypsin ArtifactsCGI-58/ABHD5 is phosphorylated on Ser239 by protein kinase A: control of subcellular localizationN-acetylaspartate catabolism determines cytosolic acetyl-CoA levels and histone acetylation in brown adipocytesLysosomal acid lipase regulates VLDL synthesis and insulin sensitivity in miceFunctional proteomics in lipid research: lipases, lipid droplets and lipoproteins.Lipolytic proteomics.PpEst is a novel PBAT degrading polyesterase identified by proteomic screening of Pseudomonas pseudoalcaligenes.Resolution Ladder for High-Resolution Mass Spectrometry.Deletion of Adipose Triglyceride Lipase links triacylglycerol accumulation to a more aggressive phenotype in A549 lung carcinoma cells.Quantification of Cellular Folate Species by LC-MS after Stabilization by Derivatization.Old Yellow Enzyme-Catalyzed Dehydrogenation of Saturated KetonesOlfactory cleft proteome does not reflect olfactory performance in patients with idiopathic and postinfectious olfactory disorder: A pilot studyA robust and simple protocol for the synthesis of arylfluorophosphonatesActivity based subcellular resolution imaging of lipasesMyristic acid induces proteomic and secretomic changes associated with steatosis, cytoskeleton remodeling, endoplasmic reticulum stress, protein turnover and exosome release in HepG2 cellsPrazosin induced lysosomal tubulation interferes with cytokinesis and the endocytic sorting of the tumour antigen CD98hcHDAC inhibition improves cardiopulmonary function in a feline model of diastolic dysfunction
P50
Q26827400-5A6AB876-95A1-4F77-942D-5239637AA198Q27303177-C897C7D6-A908-4272-BF49-2D08F88683EBQ27679889-D405B2A6-70ED-4CED-A31C-3A550CA9EC26Q27704008-DBEF867A-0C1C-40EA-9ED6-6727152BCAEFQ31052460-6D79F033-C490-4454-A21E-84E059584803Q34757325-E680FEB4-196C-4572-9A46-AE99ABA5DEA2Q36764814-F2109883-43DD-48AB-A0F3-8AACE530CB9DQ37059349-383045A6-5283-4A44-9AD5-6EE6A22666F5Q37499304-98AD020F-6079-4F62-ACF0-1A9452E3DDD6Q37990875-119343AE-0479-4D22-877C-C2DBED9D5E27Q39165872-C2906E43-840A-457B-8F73-47135197AD39Q48169000-95DC0CA2-2568-4FDE-B59F-324EF3768622Q49849732-94414E2F-7D54-4489-A6C9-93AEF8E4D84EQ55290540-D9B60F28-D24A-4C1B-B4CB-0719429146C4Q57978261-97470774-0AB0-4540-A44E-CA90DB7E4A61Q59796282-E7CA0ADA-D39E-42DB-9BB4-46B1C5254AEFQ60468543-7B08E92B-55C7-47E4-937B-6EFBB16CC72CQ60468571-5656807D-6C94-4093-8955-8BDD1409D66DQ61955100-CD893E2D-A7B1-4F3D-8965-D89C9B89B65DQ89126425-0F4FB05B-45E2-424A-A50B-746845EBD9DDQ92503368-5E108206-5452-4608-8DAA-DCB2EBF0FA6E
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Matthias Schittmayer
@ast
Matthias Schittmayer
@en
Matthias Schittmayer
@es
Matthias Schittmayer
@nl
type
label
Matthias Schittmayer
@ast
Matthias Schittmayer
@en
Matthias Schittmayer
@es
Matthias Schittmayer
@nl
prefLabel
Matthias Schittmayer
@ast
Matthias Schittmayer
@en
Matthias Schittmayer
@es
Matthias Schittmayer
@nl
P106
P21
P31
P496
0000-0003-3249-655X