Tijmen Booij
PhD candidate / guest
- Name
- Dr. T.H. Booij
Tijmen Booij (PhD) is a PhD student at the Division of Toxicology.
PhD candidate / guest
- Faculty of Science
- Leiden Academic Centre for Drug Research
- LACDR/Toxicology
- Booij T.H., Price L.S. & Danen E.H.J. (2019), 3D Cell-Based Assays for Drug Screens: Challenges in Imaging, Image Analysis, and High-Content Analysis, Slas Discovery 24(6): 615-627.
- Booij T.H., Bange H., Leonhard W.N., Yan K., Fokkelman M., Kunnen S.J., Dauwerse J.G., Qin Y., Water B. van de, Westen G.J.P. van, Peters D.J.M. & Price L.S. (2017), High-Throughput Phenotypic Screening of Kinase Inhibitors to Identify Drug Targets for Polycystic Kidney Disease, Slas Discovery 22(8): 974-984.
- Booij T.H. (20 December 2017), Phenotypic screening with 3D cell-based assays (Dissertatie. LACDR, Science, Leiden University). Supervisor(s) and Co-supervisor(s): Water B. van de & Peters D.J.M., Price L.S.
- Booij T.H., Klop M.J., Yan K., Szántai-Kis C., Szokol B., Orfi .L., Water B. van de, Keri G. & Price L.S. (2016), Development of a 3D Tissue Culture-Based High-Content Screening Platform That Uses Phenotypic Profiling to Discriminate Selective Inhibitors of Receptor Tyrosine Kinases, Journal of biomolecular screening 21(9): 912-922.
- Baranski Z., Booij T.H., Cleton-Jansen A.M., Price L.S., Water B. van de, Bovee J.V.M.G., Hogendoorn P.C.W. & Danen E.H.J. (2015), Aven-mediated checkpoint kinase control regulates proliferation and resistance to chemotherapy in conventional osteosarcoma, The journal of Pathology 236(3): 348-359.
- Baranski Madrigal Z., Booij T.H., Jong Y. de, Oosterwijk J. van, Cleton A.-M., Price L.S., Water B. van de, Bovee J.V.M.G., Hogendoorn P.C.W. & Danen E.H.J. (2015), Aven-mediated checkpoint kinase control regulates proliferation and resistance to chemotherapy in osteosarcoma cells, Cancer Research 75(15): 3780.
- Stokman G., Qin .Y., Booij T.H., Ramaiahgari S.C., Lacombe M., Dolman M.E., Dorenmalen K.M. van, Teske G.J., Florquin S., Schwede F., Water B. van de, Kok R.J. & Price L.S. (2014), Epac-Rap signaling reduces oxidative stress in the tubular epithelium, Journal of the American Society of Nephrology 25(7): 1474-1485.
No relevant ancillary activities