Plant cell polarity as the nexus of tissue mechanics and morphogenesis

ROPs (Rho of plants) belong to a large family of plant-specific Rho-like small GTPases that function as essential molecular switches to control diverse cellular processes including cytoskeleton organization, cell polarization, cytokinesis, cell differentiation and vesicle trafficking. Although the machineries of vesicle trafficking and cell polarity in plants have been individually well addressed, how ROPs co-ordinate those processes is still largely unclear. Recent progress has been made towards an understanding of the co-ordination of ROP signalling and trafficking of PIN (PINFORMED) transporters for the plant hormone auxin in both root and leaf pavement cells. PIN transporters constantly shuttle between the endosomal compartments and the polar plasma membrane domains, therefore the modulation of PIN-dependent auxin transport between cells is a main developmental output of ROP-regulated vesicle trafficking. The present review focuses on these cellular mechanisms, especially the integration of ROP-based vesicle trafficking and plant cell polarity.

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Integration of Core Mechanisms Underlying Plant Aerial Architecture

Frontiers in Plant Science ◽

10.3389/fpls.2021.786338 ◽

2021 ◽

Vol 12 ◽

Author(s):

Marcus G. Heisler

Keyword(s):

Cell Polarity ◽

Plant Cell ◽

Feedback Loop ◽

Plant Morphology ◽

Mechanical Stresses ◽

Current Understanding ◽

Cell Type ◽

Important Progress ◽

Made In

Over the last decade or so important progress has been made in identifying and understanding a set of patterning mechanisms that have the potential to explain many aspects of plant morphology. These include the feedback loop between mechanical stresses and interphase microtubules, the regulation of plant cell polarity and the role of adaxial and abaxial cell type boundaries. What is perhaps most intriguing is how these mechanisms integrate in a combinatorial manner that provides a means to generate a large variety of commonly seen plant morphologies. Here, I review our current understanding of these mechanisms and discuss the links between them.

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Plant cell divisions: variations from the shortest symmetric path

Biochemical Society Transactions ◽

10.1042/bst20200529 ◽

2020 ◽

Vol 48 (6) ◽

pp. 2743-2752

Author(s):

Léo Serra ◽

Sarah Robinson

Keyword(s):

Cell Division ◽

Cell Polarity ◽

Plant Cell ◽

Cell Walls ◽

Direct Consequence ◽

Spatial Arrangement ◽

Subcellular Structure ◽

Cell Divisions ◽

Developmental Contexts ◽

Hormonal Signalling

In plants, the spatial arrangement of cells within tissues and organs is a direct consequence of the positioning of the new cell walls during cell division. Since the nineteenth century, scientists have proposed rules to explain the orientation of plant cell divisions. Most of these rules predict the new wall will follow the shortest path passing through the cell centroid halving the cell into two equal volumes. However, in some developmental contexts, divisions deviate significantly from this rule. In these situations, mechanical stress, hormonal signalling, or cell polarity have been described to influence the division path. Here we discuss the mechanism and subcellular structure required to define the cell division placement then we provide an overview of the situations where division deviates from the shortest symmetric path.

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