Plant polarity


Plant polarity refers to the asymmetric distribution of cellular components along a particular axis within a cell, and is essential for processes such as intercellular communication, cell division, cell morphogenesis and differentiation. Polarised cells are involved in the patterning of plant tissues and organs, and therefore contribute to the overall shape of the plant.

Latest Research and Reviews

  • Research |

    Polarity establishment during the first zygote asymmetrical division is explored in the brown algae Dictyota. Through transcriptomics and cytological observations, the authors uncover a novel polarization process based on two steps that are controlled by different cues.

    • Kenny A. Bogaert
    • , Tom Beeckman
    •  & Olivier De Clerck
    Nature Plants 3, 16221
  • Research |

    The Casparian strip (CS) is a hydrophobic endodermal barrier isolating the cortex from the vasculature in the roots. A visual genetic screen identifies SCHENGEN1, a novel receptor-like kinase crucial for the integrity and positioning of the CS.

    • Julien Alassimone
    • , Satoshi Fujita
    • , Verónica G. Doblas
    • , Maritza van Dop
    • , Marie Barberon
    • , Lothar Kalmbach
    • , Joop E. M. Vermeer
    • , Nelson Rojas-Murcia
    • , Luca Santuari
    • , Christian S. Hardtke
    •  & Niko Geldner
    Nature Plants 2, 16113
  • Research | | open

    Sphingolipids in the trans-Golgi network have been implicated in polar trafficking. Here Wattelet-Boyer et al. show that hydroxylated C24- and C26-acyl-chain sphingolipids are enriched in trans-Golgi network subdomains that are critical for polar sorting of the PIN2 auxin carrier in plant cells.

    • Valérie Wattelet-Boyer
    • , Lysiane Brocard
    • , Kristoffer Jonsson
    • , Nicolas Esnay
    • , Jérôme Joubès
    • , Frédéric Domergue
    • , Sébastien Mongrand
    • , Natasha Raikhel
    • , Rishikesh P. Bhalerao
    • , Patrick Moreau
    •  & Yohann Boutté
  • Research |

    Morphogenesis needs cellular polarity. In root hair cells initiation, ROPs, DRPs and PIP5K3 are recruited in bulging sterol-enriched membrane domains. A lipid-binding AGC kinase called D6PK modulates this establishment of planar cell polarity.

    • Thomas Stanislas
    • , Anke Hüser
    • , Inês C. R. Barbosa
    • , Christian S. Kiefer
    • , Klaus Brackmann
    • , Stefano Pietra
    • , Anna Gustavsson
    • , Melina Zourelidou
    • , Claus Schwechheimer
    •  & Markus Grebe
    Nature Plants 1, 15162
  • Research |

    Asymmetric cell divisions establish the patterning of stomata in maize. Here it is demonstrated that the SCAR/WAVE complex and actin networks are involved in the early polarity establishment of PAN's receptor-like kinases in mother cells before division.

    • Michelle R. Facette
    • , Yeri Park
    • , Dena Sutimantanapi
    • , Anding Luo
    • , Heather N. Cartwright
    • , Bing Yang
    • , Eric J. Bennett
    • , Anne W. Sylvester
    •  & Laurie G. Smith
    Nature Plants 1, 14024
  • Research |

    During development in Arabidopsis plants, populations of shoot stem cells and root stem cells are established at the embryo's apical and basal poles, respectively. PLETHORA genes are master regulators of root fate, but the regulators of shoot fate were unknown. Here, CLASS III HOMEODOMAIN-LEUCINE ZIPPER genes are identified as master regulators of apical/shoot fate, and are shown to be sufficient to convert the embryonic root pole into a second shoot pole.

    • Zachery R. Smith
    •  & Jeff A. Long
    Nature 464, 423–426

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