N. Geldner, The endodermis, Annu. Rev. Plant Biol, vol.64, pp.531-558, 2013.

T. G. Andersen, M. Barberon, and N. Geldner, Suberization -the second life of an endodermal cell, Current Opinion in Plant Biology, vol.28, pp.9-15, 2015.

P. S. Hosmani, Dirigent domain-containing protein is part of the machinery required for formation of the lignin-based Casparian strip in the root, Proc. Natl. Acad. Sci. USA, vol.110, pp.14498-14503, 2013.

A. Pfister, A receptor-like kinase mutant with absent endodermal diffusion barrier displays selective nutrient homeostasis defects, Elife, vol.3, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01120479

T. Kamiya, The MYB36 transcription factor orchestrates Casparian strip formation, Proc. Natl. Acad. Sci, 2015.

M. Barberon, Adaptation of Root Function by Nutrient-Induced Plasticity of Endodermal Differentiation, 2016.

B. Li, Role of LOTR1 in Nutrient Transport through Organization of Spatial Distribution of Root Endodermal Barriers, Curr. Biol, vol.1, issue.9, 2017.

L. Kalmbach, Transient cell-specific EXO70A1 activity in the CASP domain and Casparian strip localization, 2017.

Y. Lee, M. C. Rubio, J. Alassimone, and N. Geldner, A Mechanism for Localized Lignin Deposition in the Endodermis, Cell, vol.153, pp.402-412, 2013.

I. Baxter, Root Suberin Forms an Extracellular Barrier That Affects Water Relations and Mineral Nutrition in Arabidopsis, PLoS Genet, vol.5, p.1000492, 2009.

V. G. Doblas, Root diffusion barrier control by a vasculature-derived peptide binding to the SGN3 receptor, Science, vol.355, pp.280-284, 2017.

T. Nakayama, A peptide hormone required for Casparian strip diffusion barrier formation in Arabidopsis roots, Science, vol.355, pp.284-286, 2017.

C. Nawrath, Apoplastic Diffusion Barriers in Arabidopsis. The Arabidopsis Book, vol.11, pp.167-203, 2013.

K. Ranathunge and L. Schreiber, Water and solute permeabilities of Arabidopsis roots in relation to the amount and composition of aliphatic suberin, Journal of Experimental Botany, vol.62, pp.1961-1974, 2011.

B. Péret, Auxin regulates aquaporin function to facilitate lateral root emergence, Nature Cell Biology, vol.14, pp.991-998, 2012.

V. Santoni, Plant Aquaporins, vol.285, pp.83-105, 2017.
URL : https://hal.archives-ouvertes.fr/hal-00962141

J. Bellati, Novel Aquaporin Regulatory Mechanisms Revealed by Interactomics, Mol Cell Proteomics, vol.15, pp.3473-3487, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01382938

C. Maurel, Aquaporins in Plants. Physiological Reviews, vol.95, pp.1321-1358, 2015.

M. Koornneef, M. L. Jorna, D. L. Brinkhorst-van-der-swan, and C. M. Karssen, The isolation of abscisic acid (ABA) deficient mutants by selection of induced revertants in non-germinating gibberellin sensitive lines of Arabidopsis thaliana (L.) heynh, Theor. Appl. Genet, vol.61, pp.385-393, 1982.

L. Di-laurenzio, The SCARECROW gene regulates an asymmetric cell division that is essential for generating the radial organization of the Arabidopsis root, Cell, vol.86, pp.423-433, 1996.

A. Shatil-cohen, Z. Attia, and M. Moshelion, Bundle-sheath cell regulation of xylem-mesophyll water transport via aquaporins under drought stress: a target of xylem-borne ABA?, The Plant Journal, vol.67, pp.72-80, 2011.

F. Takahashi, A small peptide modulates stomatal control via abscisic acid in long-distance signalling, Nature, vol.556, pp.235-238, 2018.

J. E. Vermeer, A Spatial Accommodation by Neighboring Cells Is Required for Organ Initiation in Arabidopsis, Science, vol.343, pp.178-183, 2014.

F. Domergue, Three Arabidopsis Fatty Acyl-Coenzyme A Reductases, FAR1, FAR4, and FAR5, Generate Primary Fatty Alcohols Associated with Suberin Deposition, Plant Physiology, vol.153, pp.1539-1554, 2010.

S. Naseer, Casparian strip diffusion barrier in Arabidopsis is made of a lignin polymer without suberin, Proc. Natl. Acad. Sci. USA, vol.109, pp.10101-10106, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01004175

N. Marsch-martínez, An efficient flat-surface collar-free grafting method for Arabidopsis thaliana seedlings, Plant Methods, vol.9, p.14, 2013.

J. E. Malamy and P. Benfey, Organization and cell differentiation in lateral roots of Arabidopsis thaliana, Development, vol.124, pp.33-44, 1997.

A. Lux, S. Morita, J. Abe, and K. Ito, An Improved Method for Clearing and Staining Free-hand Sections and Whole-mount Samples*, Annals of Botany, vol.96, pp.989-996, 2005.

R. Ursache, T. G. Andersen, P. Marhavy, and N. Geldner, A protocol for combining fluorescent proteins with histological stains for diverse cell wall components, The Plant Journal, vol.93, pp.399-412, 2018.

K. J. Livak and T. D. Schmittgen, Analysis of Relative Gene Expression Data Using Real-Time Quantitative PCR and the 2???CT Method, Methods, vol.25, pp.402-408, 2001.

K. W. Hilu and J. R. Taxon, Convenient method for studying grass leaf epidermis, JSTOR, vol.33, p.413, 1984.

H. Javot, The Role of Aquaporins in Root Water Uptake, Annals of Botany, vol.90, pp.301-313, 2002.

M. Sutka, Natural variation of root hydraulics in Arabidopsis grown in normal and salt-stressed conditions, Plant Physiology, vol.155, pp.1264-1276, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00576512

O. Novák, Tissue-specific profiling of the Arabidopsis thaliana auxin metabolome, The Plant Journal, vol.72, pp.523-536, 2012.

K. Floková, UHPLC-MS/MS based target profiling of stress-induced phytohormones, Phytochemistry, vol.105, pp.147-157, 2014.