Root exudates: the hidden part of plant defense

Trends in Plant Science
Ulrike Baetz, Enrico Martinoia

Abstract

The significance of root exudates as belowground defense substances has long been underestimated, presumably due to being buried out of sight. Nevertheless, this chapter of root biology has been progressively addressed within the past decade through the characterization of novel constitutively secreted and inducible phytochemicals that directly repel, inhibit, or kill pathogenic microorganisms in the rhizosphere. In addition, the complex transport machinery involved in their export has been considerably unraveled. It has become evident that the profile of defense root exudates is not only diverse in its composition, but also strikingly dynamic. In this review, we discuss current knowledge of the nature and regulation of root-secreted defense compounds and the role of transport proteins in modulating their release.

References

Mar 9, 2000·Trends in Plant Science·M C HawesX Zhao
Sep 1, 1994·The Plant Cell·H. D. VanEttenE. E. Farmer
Nov 9, 2002·Molecular Plant-microbe Interactions : MPMI·Uvini Gunawardena, Martha C Hawes
Dec 13, 2003·Science·Kenneth BirnbaumPhilip N Benfey
Jan 17, 2004·Annals of Botany·V E C StubbsB Griffiths
Mar 6, 2004·Science·Volker BrinkmannArturo Zychlinsky
Sep 24, 2004·Journal of Plant Physiology·Woong June ParkAlfons Gierl
Apr 9, 2005·Nature·Sergio RasmannTed C J Turlings
May 4, 2006·Annual Review of Plant Biology·Harsh P BaisJorge M Vivanco
Oct 13, 2006·Proceedings of the National Academy of Sciences of the United States of America·Zhiwei David FangJames T English
Dec 5, 2006·Plant Physiology·Fushi WenMartha C Hawes
Dec 13, 2006·Trends in Plant Science·Azeddine DriouichMaïté Vicré-Gibouin
Jul 20, 2007·Plant & Cell Physiology·Jun FurukawaJian Feng Ma
Oct 13, 2007·Journal of Plant Physiology·Hisashi Kato-NoguchiKatsumi Ota
Feb 8, 2008·Bioscience, Biotechnology, and Biochemistry·Tomonobu ToyomasuHisakazu Yamane
Jul 19, 2008·The Journal of Biological Chemistry·Clelia De-la-PeñaJorge M Vivanco
May 16, 2009·Journal of Molecular Medicine : Official Organ of the Gesellschaft Deutscher Naturforscher Und Ärzte·Maren von Köckritz-Blickwede, Victor Nizet
Jul 16, 2009·Molecular Microbiology·Tao CaiJun Zhu
Aug 25, 2009·Plant Physiology·Fushi WenMartha C Hawes
Sep 1, 2007·Plant Signaling & Behavior·Fushi WenMartha C Hawes
Oct 31, 2009·Current Opinion in Biotechnology·Dayakar V BadriJorge M Vivanco
Nov 17, 2009·Trends in Plant Science·Stefan MeyerEnrico Martinoia
Mar 17, 2010·The Plant Journal : for Cell and Molecular Biology·Klaus SchlaeppiFelix Mauch

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Citations

Oct 16, 2014·Journal of Chemical Ecology·Sandra Kleine, Caroline Müller
Nov 4, 2015·Plant Signaling & Behavior·Akifumi SugiyamaHiroshi Sano
Feb 3, 2016·Trends in Plant Science·Nicole M van Dam, Harro J Bouwmeester
Mar 26, 2016·Frontiers in Plant Science·Ahmed M HamamHerbert J Kronzucker
Oct 10, 2015·Applied Microbiology and Biotechnology·Chenjia ShenHuizhong Wang
Jun 14, 2015·Journal of Experimental Botany·René C P KuijkenHarro J Bouwmeester
Aug 19, 2015·Biological Reviews of the Cambridge Philosophical Society·Eric F LoPresti
Nov 23, 2015·FEMS Microbiology Reviews·Susanne ZeilingerChandra Nayak S
May 17, 2015·Trends in Plant Science·Morten Egevang JørgensenBarbara Ann Halkier
Aug 4, 2015·The Plant Journal : for Cell and Molecular Biology·Hsin-Yi ChenWoei-Jiun Guo
Aug 25, 2015·Frontiers in Plant Science·Tünde PusztahelyiIstván Pócsi
Jun 19, 2015·Plant Molecular Biology·Juan E Pérez-JaramilloJos M Raaijmakers
Oct 14, 2014·Trends in Plant Science·Barbara De ConinckKemal Kazan
May 25, 2016·The Science of the Total Environment·Yongbo LiuJunsheng Li
Sep 1, 2016·Journal of Chemical Ecology·John K SeniorJulianne M O'Reilly-Wapstra
Dec 3, 2014·Phytochemistry·Nadine StrehmelDierk Scheel
Jan 15, 2017·Annals of Botany·François-Xavier GilletMaria Fatima Grossi-de-Sa
Apr 8, 2017·Trends in Plant Science·Huei Hsuan Tsai, Wolfgang Schmidt
Mar 24, 2017·The Plant Journal : for Cell and Molecular Biology·Hassan MassalhaAsaph Aharoni
Apr 5, 2017·Scientific Reports·Nico EisenhauerLiesje Mommer
Sep 18, 2014·Phytochemical Analysis : PCA·Chaoni XiaoXiaohui Zheng
Jul 4, 2017·Journal of Cosmetic Dermatology·Luigi Michele SenaGabriella Colucci
Mar 29, 2018·Nature Microbiology·Gwyn A Beattie
Oct 19, 2017·Applied Microbiology and Biotechnology·Xiao XiaoGehong Wei
Jun 27, 2018·Journal of Experimental Botany·Romain CastilleuxMaïté Vicré
Apr 17, 2016·Applied and Environmental Microbiology·Florence MusJohn W Peters
Dec 21, 2018·Applied Microbiology and Biotechnology·Oluwaseyi Samuel OlanrewajuOlubukola Oluranti Babalola
May 3, 2019·Environmental Science and Pollution Research International·Imran HussainThomas G Reichenauer
Aug 23, 2019·Natural Product Reports·Sebastian Götze, Pierre Stallforth

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