the team
from left to right: Anniek, Eline, Charlotte, Jesse, Eliza, Mariëlle, Xizheng
Photo: April 2025
Charlotte Gommers
Assistant Professor
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Research interests: I am fascinated about the way plants are capable of integrating various signals from their environment to optimise growth and survival. During my post-doc I discovered how chloroplast-derived retrograde signals can alter nuclear gene expression to interfere with other pathways, such as the light signalling pathway that is activated by photoreceptors. I would like to find out now, how (stressful) environmental changes affect chloroplasts and the release of retrograde signals, and how these signals integrate in the nucleus to promote optimal survival.
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Mariëlle Schreuder
Lab Manager
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Eliza van Veen
PhD candidate
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Research interests: Plant growth and development has always fascinated me, and I am particularly interested in understanding how plants sense and respond to different environmental stimuli. During my research Master at University College Cork (Ireland), I investigated the role circadian regulated lncRNAs in regulating developmental responses ranging from germination to flowering. At that time, I also became interested in understanding how photoperiod duration impacts the transcriptional patterns circadian genes. This interest in light signalling led me my current role as PhD candidate in the Retrograde Signalling team at the department on Plant Physiology (WUR, NL). My current research focusses on understanding how salt stress impacts seedlings establishment, a process tightly regulated by light conditions. I implement an interdisciplinary approach by assessing the impact of abiotic stress on known light signalling pathways and vice versa. Additionally, I aim to understand how salt stress impacts chloroplast biogenesis during de-etiolation, and the potential role of chloroplasts in both stress perception and signalling.
Jesse Küpers
Post-doc
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Research interests: During my PhD at Utrecht University I investigated how Arabidopsis adaptively regulates organ growth in response to distally-perceived neighbour proximity signals. I unravelled an intricate interplay of several hormone signalling pathways that together steer long-distance growth between plant tissues. In my current project I am changing the level of magnification and studying how light signals affect communication between plastids and the nucleus.
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Anniek Oosterwijk
PhD candidate
​​Research interests: I am interested in the impact of different colors of light on plant development, which is a fascinating area of study in the field of plant photobiology. I like to integrate different techniques from biophysics and biochemistry, together with phenotypic analysis to investigate how plants respond to light. By exploring the effects of various monochromatic colors of light on plant growth, we specifically hope to get a better understanding on how green light affects plant growth and development and identify a still unknown green light receptor.
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Eline Eggermont
PhD candidate
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