Adaptation of Root Function by Nutrient-Induced Plasticity of Endodermal Differentiation

Cell
Marie BarberonNiko Geldner

Abstract

Plant roots forage the soil for minerals whose concentrations can be orders of magnitude away from those required for plant cell function. Selective uptake in multicellular organisms critically requires epithelia with extracellular diffusion barriers. In plants, such a barrier is provided by the endodermis and its Casparian strips--cell wall impregnations analogous to animal tight and adherens junctions. Interestingly, the endodermis undergoes secondary differentiation, becoming coated with hydrophobic suberin, presumably switching from an actively absorbing to a protective epithelium. Here, we show that suberization responds to a wide range of nutrient stresses, mediated by the stress hormones abscisic acid and ethylene. We reveal a striking ability of the root to not only regulate synthesis of suberin, but also selectively degrade it in response to ethylene. Finally, we demonstrate that changes in suberization constitute physiologically relevant, adaptive responses, pointing to a pivotal role of the endodermal membrane in nutrient homeostasis.

References

Jul 4, 2001·Journal of Experimental Botany·P J White
Feb 6, 2004·Journal of Dermatological Science·Maranke I Koster, Dennis R Roop
Jul 12, 2008·Journal of Experimental Botany·C E J BothaR G White
Jan 1, 2008·Advances in Bioinformatics·Tomas HruzPhilip Zimmermann
Feb 10, 2010·Proceedings of the National Academy of Sciences of the United States of America·Julien AlassimoneNiko Geldner
Jul 27, 2010·Trends in Plant Science·Lukas Schreiber
Mar 23, 2011·Plant Science : an International Journal of Experimental Plant Biology·Kosala RanathungeRochus Franke
May 12, 2011·Journal of Experimental Botany·Pannaga KrishnamurthyM K Mathew
Jun 6, 2012·Proceedings of the National Academy of Sciences of the United States of America·Sadaf NaseerNiko Geldner
Mar 5, 2013·Annual Review of Plant Biology·Niko Geldner
Aug 14, 2013·Proceedings of the National Academy of Sciences of the United States of America·Prashant S HosmaniDavid E Salt
Jul 22, 2014·The Plant Journal : for Cell and Molecular Biology·Katsuhiro ShionoKiyoaki Kato
Jul 26, 2014·The Plant Journal : for Cell and Molecular Biology·Dylan K KosmaOwen Rowland
Aug 16, 2014·Plant Physiology·Neil E RobbinsJosé R Dinneny
Aug 20, 2014·Plant Physiology·Marie Barberon, Niko Geldner
Apr 22, 2015·Current Biology : CB·Charles W MelnykElliot M Meyerowitz
Jul 1, 2015·Proceedings of the National Academy of Sciences of the United States of America·Takehiro KamiyaDavid E Salt
Sep 8, 2015·Current Opinion in Plant Biology·Tonni Grube AndersenNiko Geldner

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Citations

Jan 30, 2016·Cell·Germain Pauluzzi, Julia Bailey-Serres
May 7, 2016·Trends in Plant Science·Sidsel Birkelund SchmidtSøren Husted
May 24, 2016·Molecular Plant·Xin-Yuan Huang, David E Salt
Aug 16, 2016·Developmental Biology·Sharon B Gray, Siobhan M Brady
Sep 2, 2016·Frontiers in Plant Science·Marc SomssichStaffan Persson
Sep 14, 2016·Frontiers in Plant Science·Katie A WilkinsJulia M Davies
Apr 8, 2017·Trends in Plant Science·Huei Hsuan Tsai, Wolfgang Schmidt
Mar 23, 2017·Genetics and Molecular Biology·Paloma Koprovski MenguerFelipe Klein Ricachenevsky
Mar 17, 2017·Nature·Ben Scheres, Wim H van der Putten
Jul 8, 2017·Metallomics : Integrated Biometal Science·James M ConnortonJorge Rodríguez-Celma
Apr 4, 2018·The New Phytologist·Anna WunderlingLaura Ragni
Jan 10, 2018·The Plant Journal : for Cell and Molecular Biology·Kathlyn N WoolfsonMark A Bernards
Oct 11, 2017·Journal of Experimental Botany·Gwyneth Ingram, Christiane Nawrath
Nov 1, 2017·Proceedings of the National Academy of Sciences of the United States of America·Jérémie BazinJulia Bailey-Serres
Aug 8, 2018·Plant & Cell Physiology·Sandrine Ruffel
Dec 6, 2018·PLoS Biology·Michael Palmgren
Feb 8, 2018·Plant Biology·P KösterJ Kudla
Feb 16, 2019·Plant, Cell & Environment·Chloé ChampeyrouxVéronique Santoni
Dec 12, 2018·Plant, Cell & Environment·Chuanying FangJie Luo
May 3, 2019·Plant, Cell & Environment·Manuel Nieves-CordonesFrancisco Rubio
Nov 25, 2017·The Plant Journal : for Cell and Molecular Biology·Robertas UrsacheNiko Geldner
Nov 7, 2019·Nature·Julia Bailey-SerresJulian I Schroeder
May 22, 2019·The Plant Journal : for Cell and Molecular Biology·Barbara Téllez-RobledoJ Carlos Del Pozo
Dec 28, 2019·Biomolecules·Guzel R AkhiyarovaGuzel R Kudoyarova
Jan 18, 2020·The Biochemical Journal·Stéphane MariSébastien Thomine
Mar 23, 2018·Nature·Sedeer El-Showk, Ari Pekka Mähönen
Jan 21, 2020·Journal of Experimental Botany·Sascha WaidmannJürgen Kleine-Vehn
Feb 7, 2020·The Plant Journal : for Cell and Molecular Biology·Hagai CohenAsaph Aharoni
May 21, 2020·Metallomics : Integrated Biometal Science·Massimiliano Corso, Vanesa S García de la Torre
Mar 14, 2020·Annual Review of Plant Biology·Eva van ZelmChrista Testerink
Jun 13, 2020·Plant, Cell & Environment·Benjamin StichNicolaus von Wirén
Jul 10, 2020·The Plant Journal : for Cell and Molecular Biology·Chunhua WangShuang Wu
Feb 16, 2018·Journal of Experimental Botany·Elisa AndresenHendrik Küpper
Sep 12, 2018·International Journal of Molecular Sciences·Michael OgdenGhazanfar Abbas Khan

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