De Smet Ive

Group leader @ Functional Phosphoproteomics

I am leading the Functional Phosphoproteomics group at VIB since 2013. My long-term goal as a researcher is to explain how plants develop and adapt to environmental changes. I am interested in conserved cellular phosphorylation-driven signaling mechanisms orchestrating warm temperature-mediated growth responses in plants. In the future, I will go beyond cataloguing dynamic changes in phosphorylation, and explore the functional role of conserved phosphorylation events and start visualizing signaling networks for which we will validate the connection between kinases/phosphatases and their substrates.
 
During my PhD at VIB-UGent with Tom Beeckman (2001 – 2006) [including research visits to University of Leeds (UK) and Duke University (USA)], I contributed to our understanding of lateral root organogenesis. From 2006 – 2010, I joined the lab of Gerd Jürgens (Germany) as a postdoctoral research fellow funded by EMBO and Marie Curie Fellowships, focusing on early embryogenesis and auxin signaling. From 2011 – 2015, I established my first research group at the University of Nottingham (UK), funded by a prestigious BBSRC David Phillips Research Fellowship and focusing on small peptide and receptor kinase signaling in plant development. In 2013, I returned to VIB (Belgium) and established my second research group. Since then, I started to explore phosphorylation-mediated signaling during abiotic stress, using an up-to-date workflow to capture protein phosphorylation proteome-wide. In 2014, I became a UGent professor. Finally, I recently developed a completely new research program, focusing on temperature signaling.
 

Contact information

Office: Technologiepark 71, 9052 Zwijnaarde, Belgium
Email: ive.desmet@psb.vib-ugent.be
Office Phone: +32(0)93313930

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Publications

The CEP5 peptide promotes abiotic stress tolerance, as revealed by quantitative proteomics, and attenuates the AUX/IAA equilibrium in Arabidopsis.
Smith, S., Zhu, S., Joos, L., Roberts, I., Nikonorova, N., Vu, L.D., Stes, E., Cho, H., Larrieu, A., Xuan, W., Goodall, B., Van De Cotte, B., Waite, J.M., Rigal, A., Ramans Harborough, S., Persiau, G., Vanneste, S., Kirschner, G.K., Vandermarliere, E., Martens, L., Stahl, Y., Audenaert, D., Friml, J., Felix, G., Simon, R., Bennett, M.J., Bishopp, A., De Jaeger, G., Ljung, K., Kepinski, S., Robert, S., Nemhauser, J., Hwang, I., Gevaert, K., Beeckman, T., De Smet, I.
Temperature-induced changes in the wheat phosphoproteome reveal temperature-regulated interconversion of phosphoforms.
Vu, LD., Zhu, T., Verstraeten, I., van de Cotte, B., The International Wheat Genome Sequencing Consortium, Gevaert, K., De Smet, I.
Developmental programming of thermonastic leaf movement.
Park, Y-J., Lee, H-J., Gil, K-E., Kim, JY., Lee, J-H., Lee, H., Cho, H-T., Vu, LD., De Smet, I., Park, C-M.
Developmental programming of thermonastic leaf movement.
Park, Y-J., Lee, H-J., Gil, K-E., Kim, JY., Lee, J-H., Lee, H., Cho, H-T., Vu, LD., De Smet, I., Park, C-M.
Developmental Plasticity at High Temperature.
Vu, LD., Xu, X., Gevaert, K., De Smet, I.
The membrane-localized protein kinase MAP4K4/TOT3 regulates thermomorphogenesis.
Vu, LD., Xu, X., Zhu, T., Pan, L., van Zanten, M., de Jong, D., Wang, Y., Vanremoortele, T., Locke, AM., van de Cotte, B., De Winne, N., Stes, E., Russinova, E., De Jaeger, G., Van Damme, D., Uauy, C., Gevaert, K., De Smet, I.