SubsidieMeestersStrategies of 3-D growth in brown algae
ALTER e-GROW investigates 3D tissue development mechanisms in brown algae by modeling growth parameters to enhance understanding of diverse multicellular growth strategies.
Projectdetails
Introduction
ALTER e-GROW aims to identify the mechanisms underlying the development of tri-dimensional (3D) tissues in multicellular organisms. Many physical factors influence the shape of an organism growing from a single cell or a small group of cells:
- The direction of growth along the x, y, and z axes
- When and how rapidly growth occurs
- Whether the region of growth is diffuse or localized
An almost infinite number of combinations of these factors are possible.
Growth in Multicellular Organisms
Most animals and land plants grow in 3D from the onset of embryogenesis. Other multicellular organisms, however, grow in 3D later in their development. For example:
- Emergence of a 3D bud from a single row of cells (as in mosses)
- Aggregation of hyphae (as in fungi)
The large phylogenetic distances between current model organisms complicate the investigation of the mechanisms underlying this diversity of 3D growth strategies.
Unique Subject of Study
Brown algae, by contrast, display all of these 3D growth modes in a single clade, making them a unique subject for the investigation of the mechanisms. Moreover, their independent and recent evolution when compared to the other clades suggests that they have developed divergent 3D growth mechanisms.
Research Methodology
In this project, my team will observe and quantify parameters of 3D growth in four species of brown algae, each representative of one of the main types of 3D growth mechanisms also found in animals, plants, and fungi.
Dynamic Mathematical Models
Then we will build dynamic mathematical models that describe these mechanisms by integrating quantitative data on:
- Cell shape
- Cell wall thickness and stiffness
- Cytoskeleton organization
- Turgor
- Cell-cell tension in dynamic 3D growth simulations
We will test these models by comparing the 3D growth patterns of wild-type algae and genetic mutants.
Conclusion
Thus, this project will pioneer what is currently a black box of knowledge about the development of brown algae, examining how these organisms raise multicellular structures in 3D space.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 3.062.393 |
| Totale projectbegroting | € 3.062.393 |
Tijdlijn
| Startdatum | 1-2-2023 |
| Einddatum | 31-1-2028 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRSpenvoerder
- SORBONNE UNIVERSITE
Land(en)
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