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Literature DB >> 21724835

Stem cell activation by light guides plant organogenesis.

Saiko Yoshida¹, Therese Mandel, Cris Kuhlemeier.

Abstract

Leaves originate from stem cells located at the shoot apical meristem. The meristem is shielded from the environment by older leaves, and leaf initiation is considered to be an autonomous process that does not depend on environmental cues. Here we show that light acts as a morphogenic signal that controls leaf initiation and stabilizes leaf positioning. Leaf initiation in tomato shoot apices ceases in the dark but resumes in the light, an effect that is mediated through the plant hormone cytokinin. Dark treatment also affects the subcellular localization of the auxin transporter PIN1 and the concomitant formation of auxin maxima. We propose that cytokinin is required for meristem propagation, and that auxin redirects cytokinin-inducible meristem growth toward organ formation. In contrast to common wisdom over the last 150 years, the light environment controls the initiation of lateral organs by regulating two key hormones: auxin and cytokinin.

Entities: Gene Species

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Year: 2011 PMID： 21724835 PMCID： PMC3134086 DOI： 10.1101/gad.631211

Source DB: PubMed Journal: Genes Dev ISSN： 0890-9369 Impact factor: 11.361

62 in total

1. Auxin inhibits endocytosis and promotes its own efflux from cells.

Authors: Tomasz Paciorek; Eva Zazímalová; Nadia Ruthardt; Jan Petrásek; York-Dieter Stierhof; Jürgen Kleine-Vehn; David A Morris; Neil Emans; Gerd Jürgens; Niko Geldner; Jirí Friml
Journal: Nature Date: 2005-06-30 Impact factor: 49.962

2. Direct control of shoot meristem activity by a cytokinin-activating enzyme.

Authors: Takashi Kurakawa; Nanae Ueda; Masahiko Maekawa; Kaoru Kobayashi; Mikiko Kojima; Yasuo Nagato; Hitoshi Sakakibara; Junko Kyozuka
Journal: Nature Date: 2007-02-08 Impact factor: 49.962

3. Developmental patterning by mechanical signals in Arabidopsis.

Authors: Olivier Hamant; Marcus G Heisler; Henrik Jönsson; Pawel Krupinski; Magalie Uyttewaal; Plamen Bokov; Francis Corson; Patrik Sahlin; Arezki Boudaoud; Elliot M Meyerowitz; Yves Couder; Jan Traas
Journal: Science Date: 2008-12-12 Impact factor: 47.728

4. Gene expression map of the Arabidopsis shoot apical meristem stem cell niche.

Authors: Ram Kishor Yadav; Thomas Girke; Sumana Pasala; Mingtang Xie; G Venugopala Reddy
Journal: Proc Natl Acad Sci U S A Date: 2009-03-03 Impact factor: 11.205

5. HY5 is a point of convergence between cryptochrome and cytokinin signalling pathways in Arabidopsis thaliana.

Authors: Filip Vandenbussche; Yvette Habricot; Amanda S Condiff; Régis Maldiney; Dominique Van der Straeten; Margaret Ahmad
Journal: Plant J Date: 2007-01-01 Impact factor: 6.417

6. BIG: a calossin-like protein required for polar auxin transport in Arabidopsis.

Authors: P Gil; E Dewey; J Friml; Y Zhao; K C Snowden; J Putterill; K Palme; M Estelle; J Chory
Journal: Genes Dev Date: 2001-08-01 Impact factor: 11.361

7. A Role for Cytokinins in De-Etiolation in Arabidopsis (det Mutants Have an Altered Response to Cytokinins).

Authors: J. Chory; D. Reinecke; S. Sim; T. Washburn; M. Brenner
Journal: Plant Physiol Date: 1994-02 Impact factor: 8.340

8. Requirement of the Auxin Polar Transport System in Early Stages of Arabidopsis Floral Bud Formation.

Authors: K. Okada; J. Ueda; M. K. Komaki; C. J. Bell; Y. Shimura
Journal: Plant Cell Date: 1991-07 Impact factor: 11.277

9. Distinct light-initiated gene expression and cell cycle programs in the shoot apex and cotyledons of Arabidopsis.

Authors: Enrique López-Juez; Edyta Dillon; Zoltán Magyar; Safina Khan; Saul Hazeldine; Sarah M de Jager; James A H Murray; Gerrit T S Beemster; László Bögre; Hugh Shanahan
Journal: Plant Cell Date: 2008-04-18 Impact factor: 11.277

10. Arabidopsis KNOXI proteins activate cytokinin biosynthesis.

Authors: Osnat Yanai; Eilon Shani; Karel Dolezal; Petr Tarkowski; Robert Sablowski; Goran Sandberg; Alon Samach; Naomi Ori
Journal: Curr Biol Date: 2005-09-06 Impact factor: 10.834

53 in total

1. Analysis of subcellular localization of auxin carriers PIN, AUX/LAX and PGP in Sorghum bicolor.

Authors: SuiKang Wang; ChenJia Shen; SaiNa Zhang; YanXia Xu; DeAn Jiang; YanHua Qi
Journal: Plant Signal Behav Date: 2011-12

2. Genetic approach towards the identification of auxin-cytokinin crosstalk components involved in root development.

Authors: Agnieszka Bielach; Jérôme Duclercq; Peter Marhavý; Eva Benková
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2012-06-05 Impact factor: 6.237

3. Gain and loss of photosynthetic membranes during plastid differentiation in the shoot apex of Arabidopsis.

Authors: Dana Charuvi; Vladimir Kiss; Reinat Nevo; Eyal Shimoni; Zach Adam; Ziv Reich
Journal: Plant Cell Date: 2012-03-20 Impact factor: 11.277

4. Pin1-independent leaf initiation in Arabidopsis.

Authors: Bernadette Guenot; Emmanuelle Bayer; Daniel Kierzkowski; Richard S Smith; Therese Mandel; Petra Žádníková; Eva Benková; Cris Kuhlemeier
Journal: Plant Physiol Date: 2012-06-21 Impact factor: 8.340

5. Cytokinin response factors regulate PIN-FORMED auxin transporters.

Authors: Mária Šimášková; José Antonio O'Brien; Mamoona Khan; Giel Van Noorden; Krisztina Ötvös; Anne Vieten; Inge De Clercq; Johanna Maria Adriana Van Haperen; Candela Cuesta; Klára Hoyerová; Steffen Vanneste; Peter Marhavý; Krzysztof Wabnik; Frank Van Breusegem; Moritz Nowack; Angus Murphy; Jiří Friml; Dolf Weijers; Tom Beeckman; Eva Benková
Journal: Nat Commun Date: 2015-11-06 Impact factor: 14.919

10. Strigolactone can promote or inhibit shoot branching by triggering rapid depletion of the auxin efflux protein PIN1 from the plasma membrane.

Authors: Naoki Shinohara; Catherine Taylor; Ottoline Leyser
Journal: PLoS Biol Date: 2013-01-29 Impact factor: 8.029