Genetius - Plant Biology Papers

Root phenolics as potential drivers of preformed defenses and reduced disease susceptibility in a paradigm bread wheat mixture

Authors: Mathieu, L., Chloup, A., Marty, S., Savajols, J., Paysant-Le Roux, C., Launay-Avon, A., Martin, M.-L., Totozafy, J.-C., Perreau, F., Rochepeau, A., Rouveyrol, C., Petriacq, P., Morel, J.-B., Meteignier, L.-V., Ballini, E.

Date: 2026-01-14 · Version: 1

DOI: 10.64898/2026.01.13.699261

Category: Plant Biology

Model Organism: Triticum aestivum

root-mediated interactions bread wheat Septoria tritici blotch transcriptomics metabolomics

Ultra large-scale 2D clinostats uncover environmentally derived variation in tomato responses to simulated microgravity

Authors: Hostetler, A. N., Kennebeck, E., Reneau, J. W., Birtell, E., Caldwell, D. L., Iyer-Pascuzzi, A. S., Sparks, E. E.

Date: 2026-01-13 · Version: 2

DOI: 10.1101/2025.05.16.654566

Category: Plant Biology

Model Organism: Solanum lycopersicum (tomato)

simulated microgravity ultra large-scale clinostat tomato (Solanum lycopersicum) heat stress plant growth interaction

Universal modules for decoding amplitude and frequency of Ca2+ signals in plants

Authors: Vergara-Valladares, F., Rubio-Melendez, M. E., Charpentier, M., Michard, E., Dreyer, I.

Date: 2025-12-16 · Version: 1

DOI: 10.64898/2025.12.13.694100

Category: Plant Biology

Model Organism: General

calcium signaling EF‑hand Ca2+ binding protein decoding modules plant calcium sensors signal amplitude and frequency

Genetic Insights from Line x Tester Analysis of Maize Lethal Necrosis Testcrosses for Developing Multi-Stress-Resilient Hybrids in Sub-Saharan Africa

Authors: Gowda, M., Beyene, Y., L.M., S., Ogugo, V., Amadu, M. K., Chaikam, V.

Date: 2025-12-09 · Version: 1

DOI: 10.64898/2025.12.07.692857

Category: Plant Biology

Model Organism: Zea mays

maize lethal necrosis (MLN) drought tolerance grain yield combining ability GGE biplot

Gravity-Dependent Metabolomic Responses in Starbor Kale Brassica oleracea: Comparisons With Simulated Microgravity Versus Gravity Grown

Authors: Osano, A., Yan, J., Ude, G., Ray, S., Peng, J., Li, Y., Iro, A.

Date: 2025-10-01 · Version: 1

DOI: 10.1101/2025.09.29.679261

Category: Plant Biology

Model Organism: Brassica oleracea (kale)

simulated microgravity kale LC‑MS metabolomics principal component analysis gravity-induced metabolic adaptation

Controlling GRF4-GIF1 Expression for Efficient, Genotype-Independent Transformation Across Wheat Cultivars

Authors: Hayta, S., Smedley, M. A., Bayraktar, M., Forner, M., Backhaus, A., Lister, C., Clarke, M., Uauy, C., Griffiths, S.

Date: 2025-09-02 · Version: 1

DOI: 10.1101/2025.08.29.673042

Category: Plant Biology

Model Organism: Triticum aestivum

GRF4‑GIF1 fusion Agrobacterium-mediated transformation genotype‑independent regeneration bread wheat transformation efficiency

Latest 6 Papers

Root phenolics as potential drivers of preformed defenses and reduced disease susceptibility in a paradigm bread wheat mixture

Ultra large-scale 2D clinostats uncover environmentally derived variation in tomato responses to simulated microgravity

Universal modules for decoding amplitude and frequency of Ca2+ signals in plants

Genetic Insights from Line x Tester Analysis of Maize Lethal Necrosis Testcrosses for Developing Multi-Stress-Resilient Hybrids in Sub-Saharan Africa

Gravity-Dependent Metabolomic Responses in Starbor Kale Brassica oleracea: Comparisons With Simulated Microgravity Versus Gravity Grown

Controlling GRF4-GIF1 Expression for Efficient, Genotype-Independent Transformation Across Wheat Cultivars