An extended root phenotype: the rhizosphere, its formation and impacts on plant fitness

Cant�, Carla de la Fuenta; Simonin, Marie; King, Eoghan; Moulin, Lionel; Bennett, Malcolm J.; Castrillo, Gabriel; Laplaze, Laurent

doi:10.1111/tpj.14781

All Outputs (3)

Coordination between microbiota and root endodermis supports plant mineral nutrient homeostasis (2020)
Journal Article
Salas-González, I., Reyt, G., Flis, P., Custódio, V., Gopaulchan, D., Bakhoum, N., …Castrillo, G. (2021). Coordination between microbiota and root endodermis supports plant mineral nutrient homeostasis. Science, 371(6525), Article eabd0695. https://doi.org/10.1126/science.abd0695

Copyright © 2021, American Association for the Advancement of Science. Plant roots and animal guts have evolved specialized cell layers to control mineral nutrient homeostasis. These layers must tolerate the resident microbiota while keeping homeosta... Read More about Coordination between microbiota and root endodermis supports plant mineral nutrient homeostasis.

Uclacyanin Proteins Are Required for Lignified Nanodomain Formation within Casparian Strips (2020)
Journal Article
Reyt, G., Chao, Z., Flis, P., Salas-González, I., Castrillo, G., Chao, D. Y., & Salt, D. E. (2020). Uclacyanin Proteins Are Required for Lignified Nanodomain Formation within Casparian Strips. Current Biology, 30(20), 4103-4111.e6. https://doi.org/10.1016/j.cub.2020.07.095

© 2020 The Author(s) Casparian strips (CSs) are cell wall modifications of vascular plants restricting extracellular free diffusion into and out of the vascular system [1]. This barrier plays a critical role in controlling the acquisition of nutrient... Read More about Uclacyanin Proteins Are Required for Lignified Nanodomain Formation within Casparian Strips.

An extended root phenotype: the rhizosphere, its formation and impacts on plant fitness (2020)
Journal Article
Cantó, C. D. L. F., Simonin, M., King, E., Moulin, L., Bennett, M. J., Castrillo, G., & Laplaze, L. (2020). An extended root phenotype: the rhizosphere, its formation and impacts on plant fitness. Plant Journal, 103(3), 951-964. https://doi.org/10.1111/tpj.14781

© 2020 Society for Experimental Biology and John Wiley & Sons Ltd Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To improve their foraging activities, plants have evolved mechanisms to modify the physico... Read More about An extended root phenotype: the rhizosphere, its formation and impacts on plant fitness.