Saskia Rueb
Onderwijs- en onderzoeksmedewerker
- Naam
- S. Rueb
- Telefoon
- +31 71 527 5017
- s.rueb@biology.leidenuniv.nl
Onderwijs- en onderzoeksmedewerker
- Wiskunde en Natuurwetenschappen
- Instituut Biologie Leiden
- IBL Animal Sciences
- Camus S., Quevedo S., Menendez S., Paramonov I., Janssen R.A., Rueb S., He S., Snaar-Jagalska B.E., Laricchia-Robbio L. & Izpisua Belmonte I.C. (2012), Identification of phosphorylase kinase as a novel therapeutic target through high-throughput screening for anti-angioooogenesis compounds in zebrafish, Oncogene 31: 4333-4342.
- Martens A.A., Besseling N.A.M., Rueb S., Sudholter E.J.R., Spaink H.P. & Smet L.C.P.M. de (2011), Random Scission of Polymers: Numerical Simulations, and Experiments on Hyaluronan Hydrolysis, MACROMOLECULES 44: 2559-2567.
- He S., Salas-Vidal E., Rueb S., Krens S.F.G., Meijer A.H., Snaar-Jagalska B.E. & Spaink H.P. (2006), Genetic and transcriptome characterization of model zebrafish cell lines, Zebrafish 3(4): 441-453.
- Kuijt S.J.H., Lamer G.E.M., Rueb S., Scarpella E., Ouwerkerk P.B.F., Spaink H.P. & Meijer A.H. (2004), Different subcellular localization and trafficking properties of KNOX class 1 homeodomain proteins from rice, Plant Molecular Biology 55(6): 781-796.
- Sallaud C., Meynard D., Boxtel J. van, Gay C., Bes M., Brizard J.P., Larmande P., Ortega D., Raynal M., Portefaix M., Ouwerkerk P.B.F., Rueb S., Delseny M. & Guiderdoni E. (2003), Highly efficient production and characterization of T-DNA plants for rice (Oryza sativa L.) functional genomics, Theoretical and Applied Genetics 106: 1396-1408.
- Scarpella E., Rueb S. & Meijer A.H. (2003), The RADICLELESS1 gene is required for vascular pattern formation in rice, Development 130: 645-658.
- Postma-Haarsma A.D., Rueb S., Scarpella E., Besten P. den, Hoge J.H.C. & Meijer A.H. (2002), Developmental regulation and downstream effects of the knox class homeobox genes Oskn2 and Oskn3 from rice, 48: 423-441.
- Scarpella E., Boot C.J.M., Rueb S. & Meijer A.H. (2002), The procambium specification gene Oshol 1 promotes polar auxin transport capacity and reduces its sensitivity toward inhibition, 130: 1349-1360.
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