Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport

Marcus G. Heisler; Olivier O. Hamant; Pawel Krupinski; Magalie M. Uyttewaal; Carolyn Ohno; Henrik Jönsson; Jan Traas; Elliot M. Meyerowitz

doi:10.1371/journal.pbio.1000516

Journal Articles PLoS Biology Year : 2010

Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport

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Marcus G. Heisler

Function : Author

California Institute of Technology

Olivier O. Hamant

Function : Author
PersonId : 746523
IdHAL : olivier-hamant
ORCID : 0000-0001-6906-6620
IdRef : 08943868X

Reproduction et développement des plantes

Pawel Krupinski

Function : Author

Skane University Hospital [Lund]

Magalie M. Uyttewaal

Function : Author
PersonId : 1165912
IdHAL : magalie-uyttewaal
ORCID : 0000-0003-2881-6637
IdRef : 122997476

Reproduction et développement des plantes

Carolyn Ohno

Function : Author

Division of Biology [Pasadena]

Henrik Jönsson

Function : Author

Skane University Hospital [Lund]

Jan Traas

Function : Author
PersonId : 1136535

Reproduction et développement des plantes

Elliot M. Meyerowitz

Function : Author

Division of Biology [Pasadena]

Abstract

Morphogenesis during multicellular development is regulated by intercellular signaling molecules as well as by the mechanical properties of individual cells. In particular, normal patterns of organogenesis in plants require coordination between growth direction and growth magnitude. How this is achieved remains unclear. Here we show that in Arabidopsis thaliana, auxin patterning and cellular growth are linked through a correlated pattern of auxin efflux carrier localization and cortical microtubule orientation. Our experiments reveal that both PIN1 localization and microtubule array orientation are likely to respond to a shared upstream regulator that appears to be biomechanical in nature. Lastly, through mathematical modeling we show that such a biophysical coupling could mediate the feedback loop between auxin and its transport that underlies plant phyllotaxis.

Keywords

ARABIDOPSIS-THALIANA GENE-EXPRESSION PHYLLOTAXIS GROWTH INITIATION

CORTICAL MICROTUBULES PLASMA-MEMBRANE PROTEINS PLANTS INDUCTION

Domains

Life Sciences [q-bio] Vegetal Biology

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Submitted on : Saturday, May 30, 2020-11:47:36 PM

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hal-02662262 , version 1 (30-05-2020)

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HAL Id : hal-02662262 , version 1
DOI : 10.1371/journal.pbio.1000516
PRODINRA : 260123
WOS : 000283495100015

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Marcus G. Heisler, Olivier O. Hamant, Pawel Krupinski, Magalie M. Uyttewaal, Carolyn Ohno, et al.. Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport. PLoS Biology, 2010, 8 (10), ⟨10.1371/journal.pbio.1000516⟩. ⟨hal-02662262⟩

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Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport

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