about
Proteomic and Metabolomic Analyses Reveal Contrasting Anti-Inflammatory Effects of an Extract of Mucor Racemosus Secondary Metabolites Compared to DexamethasoneEvaluation of inflammation-related signaling events covering phosphorylation and nuclear translocation of proteins based on mass spectrometry data.Impact of a synthetic cannabinoid (CP-47,497-C8) on protein expression in human cells: evidence for induction of inflammation and DNA damage.Contribution of Human Fibroblasts and Endothelial Cells to the Hallmarks of Inflammation as Determined by Proteome ProfilingComprehensive assessment of proteins regulated by dexamethasone reveals novel effects in primary human peripheral blood mononuclear cells.Vemurafenib resistance signature by proteome analysis offers new strategies and rational therapeutic concepts.Quantitative proteomics reveals protein kinases and phosphatases in the individual phases of contextual fear conditioning in the C57BL/6J mouse.Proteome profiling of breast cancer biopsies reveals a wound healing signature of cancer-associated fibroblasts.Combined Proteome and Eicosanoid Profiling Approach for Revealing Implications of Human Fibroblasts in Chronic Inflammation.Response Profiling Using Shotgun Proteomics Enables Global Metallodrug Mechanisms of Action To Be Established.Quantification of cytokines secreted by primary human cells using multiple reaction monitoring: evaluation of analytical parameters.Extracellular matrix remodeling by bone marrow fibroblast-like cells correlates with disease progression in multiple myeloma.Proteomic profiling identifies markers for inflammation-related tumor-fibroblast interaction.Phosphorylation of iRhom2 Controls Stimulated Proteolytic Shedding by the Metalloprotease ADAM17/TACE.Proteomics and metabolomics identify molecular mechanisms of aging potentially predisposing for chronic lymphocytic leukemia.An Organoruthenium Anticancer Agent Shows Unexpected Target Selectivity For Plectin.Proteomics and transcriptomics of peripheral nerve tissue and cells unravel new aspects of the human Schwann cell repair phenotype.Coffee consumption modulates inflammatory processes in an individual fashion.Hepatocyte specific expression of an oncogenic variant of β-catenin results in lethal metabolic dysfunction in mice.Targeting breast cancer-associated fibroblasts to improve anti-cancer therapy.Proteomics-based insights into mitogen-activated protein kinase inhibitor resistance of cerebral melanoma metastases.Mobile phone specific electromagnetic fields induce transient DNA damage and nucleotide excision repair in serum-deprived human glioblastoma cells.Curcumin exerts its antitumor effects in a context dependent fashionCombined transcriptome and proteome profiling reveals specific molecular brain signatures for sex, maturation and circalunar clock phaseFetal articular cartilage regeneration versus adult fibrocartilaginous repair: secretome proteomics unravels molecular mechanisms in an ovine modelTime-dependent shotgun proteomics revealed distinct effects of an organoruthenium prodrug and its activation product on colon carcinoma cellsA comprehensive urinary steroid analysis strategy using two-dimensional gas chromatography - time of flight mass spectrometryMetabolic, Anti-apoptotic and Immune Evasion Strategies of Primary Human Myeloma Cells Indicate Adaptations to HypoxiaCorazonin signaling integrates energy homeostasis and lunar phase to regulate aspects of growth and sexual maturation in Platynereis
P50
Q28550466-EBE33ED2-9272-4410-B645-9D831E624DF8Q31142638-14964721-A698-441A-A221-5B68A385DA8BQ34486027-53449CFB-4986-404D-AA29-8B9419CEC44BQ38394291-CB873AC2-0251-4890-AEA0-86192B460A02Q38421696-7549AE46-8D49-4888-ABCF-8206F679510CQ38917513-4B998178-D768-405B-A5D9-2E138233CA32Q38922724-48AFD9EB-4788-4AAF-A2CD-4AF70182DC03Q38954998-CC3905D6-853F-454F-88A4-4BA897BE5CCDQ38957088-1F2A378F-43EE-444D-8FEF-F1D04DAAFA79Q39029609-16793D91-846C-49EA-899A-6206CFFF91F2Q40818666-5E25E6FD-09AC-4828-B515-17B07F83E419Q44598895-A123A675-E992-4CD7-8976-A01C53C5A2EFQ46021284-D7EE4622-ACBA-4E68-81D9-31C4F2F6269DQ47135385-20E48765-24EC-4F09-94D4-5DDC0A182A1BQ47340485-2676B1AE-36E1-407C-9174-D7D6387A8DFBQ48088409-690356B4-DC4C-4E41-A445-F42688E97336Q51559681-DB67781F-FD98-4F7A-90D1-D381BC6255F2Q51636044-054201D4-7120-4849-8CB1-D670AC21203FQ52726477-9F449CCF-A2A9-40AC-A667-196D01127BACQ52928267-2865DB16-639E-4745-B5FB-D08663F92B2CQ54982136-E0929304-48A7-4719-835B-F2B1415BF872Q55180242-66F5B993-4BC2-4AA2-9EF2-36AE27F3E0ECQ60289490-066A64CD-6857-4A55-BB27-D49BF4ED26B6Q61795858-F54AE80A-34DD-4866-BC74-E749260CB54FQ89506670-13719B7C-F2D2-42FD-9549-73F3B6AA8F92Q90936183-2ED98261-28B3-49D0-9E9E-86FE5AA11DE1Q91196909-F7333372-A2BF-4C2F-8552-3C417E2FFBF7Q91814085-BC5D11E0-31AA-4B88-9FB5-37E7A0A3348CQ92023616-1B38FB3B-AE31-4445-83FB-B5A46F1F0DC4
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Andrea Bileck
@ast
Andrea Bileck
@en
Andrea Bileck
@es
Andrea Bileck
@nl
Andrea Bileck
@sl
type
label
Andrea Bileck
@ast
Andrea Bileck
@en
Andrea Bileck
@es
Andrea Bileck
@nl
Andrea Bileck
@sl
prefLabel
Andrea Bileck
@ast
Andrea Bileck
@en
Andrea Bileck
@es
Andrea Bileck
@nl
Andrea Bileck
@sl
P106
P1153
56032664400
P31
P496
0000-0002-7053-8856