Max Minne
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View article: Conserved transcriptional reprogramming in nematode infected root cells
Conserved transcriptional reprogramming in nematode infected root cells Open
Plant-parasitic nematodes are responsible for important annual losses in crop productivity worldwide 1,2 . Although the formation of feeding organs within the roots is essential for successful sedentary parasitism 3 , the molecular mechani…
View article: Unraveling the cis-regulatory code controlling abscisic acid-dependent gene expression in Arabidopsis using deep learning
Unraveling the cis-regulatory code controlling abscisic acid-dependent gene expression in Arabidopsis using deep learning Open
Abscisic acid (ABA) is a key regulator of abiotic stress responses in plants. Understanding the regulation of ABA-dependent gene expression is key to uncovering how plants adapt to environmental stress and how their resilience can be impro…
View article: SPL13 controls a root apical meristem phase change by triggering oriented cell divisions
SPL13 controls a root apical meristem phase change by triggering oriented cell divisions Open
Oriented cell divisions are crucial for determining the overall morphology and size of plants, but what controls the onset and duration of this process remains largely unknown. Here, we identified a small molecule that activates root apica…
View article: The transcription factor AtMYB12 is part of a feedback loop regulating cell division orientation in the root meristem vasculature
The transcription factor AtMYB12 is part of a feedback loop regulating cell division orientation in the root meristem vasculature Open
Transcriptional networks are crucial to integrate various internal and external signals into optimal responses during plant growth and development. In Arabidopsis thaliana, primary root vasculature patterning and proliferation are controll…
View article: Vascular transcription factors guide plant epidermal responses to limiting phosphate conditions
Vascular transcription factors guide plant epidermal responses to limiting phosphate conditions Open
Roots primed for better phosphate uptake Phosphate is a key resource for plants, and remediating phosphate deficiency drives considerable fertilizer use. In low-phosphate conditions, roots make more root hairs, which makes them better able…