about
Haem-activated promiscuous targeting of artemisinin in Plasmodium falciparumGenistein exerts anti-leukemic effects on genetically different acute myeloid leukemia cell lines by inhibiting protein synthesis and cell proliferation while inducing apoptosis - molecular insights from an iTRAQ™ quantitative proteomics study.Dramatic improvement of proteomic analysis of zebrafish liver tumor by effective protein extraction with sodium deoxycholate and heat denaturation.Quantitative chemical proteomics profiling of de novo protein synthesis during starvation-mediated autophagy.Stk38 Modulates Rbm24 Protein Stability to Regulate Sarcomere Assembly in Cardiomyocytes.Mapping sites of aspirin-induced acetylations in live cells by quantitative acid-cleavable activity-based protein profiling (QA-ABPP).Nonradioactive quantification of autophagic protein degradation with L-azidohomoalanine labeling.Target identification with quantitative activity based protein profiling (ABPP).Mechanistic Investigation of the Specific Anticancer Property of Artemisinin and Its Combination with Aminolevulinic Acid for Enhanced Anticolorectal Cancer Activity.Drug Target Identification Using an iTRAQ-Based Quantitative Chemical Proteomics Approach-Based on a Target Profiling Study of Andrographolide.Corrigendum: Stk38 Modulates Rbm24 Protein Stability to Regulate Sarcomere Assembly in Cardiomyocytes.Mechanism-Guided Design and Synthesis of a Mitochondria-Targeting Artemisinin Analogue with Enhanced Anticancer Activity.Artesunate-induced mitophagy alters cellular redox statusGears-In-Motion: The Interplay of WW and PPIase Domains in Pin1Quantitative Proteomics Study Reveals Changes in the Molecular Landscape of Human Embryonic Stem Cells with Impaired Stem Cell Differentiation upon Exposure to Titanium Dioxide NanoparticlesProteomic Analysis of Zebrafish (Danio rerio) After Chemical ExposureComparative profiling of analog targets: a case study on resveratrol for mouse melanoma metastasis suppression
P50
Q22061870-937D4A14-7BED-4718-9882-E1D014AC7F69Q35238980-B7E46491-3777-40C2-80C9-B3782FF9E2DEQ35248139-53F5FAAB-6BBE-4D85-B98D-A7B315A90360Q37365465-9286B724-F61D-43BB-BAC2-4BBE7AB606B2Q37712988-406B2865-D7DF-479B-8D46-0CDD38651F5DQ37736362-76EB4E2A-9AC8-4F2D-B1D4-AA05DF389DCEQ38721727-7803B0C4-06C7-4AB9-8D7A-BF6F605559AEQ38977038-955DDAB8-C362-4240-A0D3-F09459C5CEDAQ40107073-EA7970EE-AF49-4CB5-9666-E733D58197DEQ40352963-37075AA7-6074-4158-A77A-62FEA9A6A33BQ40994075-D9EF55AA-2E85-4DC9-A677-1B532A336EDDQ47974291-D3F28417-3D04-409E-AFE8-8C75A122B1F3Q58800391-982E3DE7-3B42-4E28-A425-F392F542FDB8Q59127766-65680881-B402-4BDE-83A7-D6E557B15132Q88614111-316B6B53-680D-4F1A-9640-AB862165527AQ89085415-93AEF70E-5D5C-4964-BFAD-53E5BC9DE08EQ90352919-110EFBA9-6DC2-4401-A320-8544F7AF51C2
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Yew Mun Lee
@ast
Yew Mun Lee
@en
Yew Mun Lee
@es
Yew Mun Lee
@nl
type
label
Yew Mun Lee
@ast
Yew Mun Lee
@en
Yew Mun Lee
@es
Yew Mun Lee
@nl
prefLabel
Yew Mun Lee
@ast
Yew Mun Lee
@en
Yew Mun Lee
@es
Yew Mun Lee
@nl
P106
P31
P496
0000-0002-8360-7689