Abstract
Modern green algae constitute a large and diverse taxonomic assemblage that encompasses many multicellular phenotypes including colonial, filamentous, and parenchymatous forms. In all multicellular green algae, each cell is surrounded by an extracellular matrix (ECM), most often in the form of a cell wall. Volvocalean taxa like Volvox have an elaborate, gel-like, hydroxyproline rich glycoprotein covering that contains the cells of the colony. In “ulvophytes,” uronic acid-rich and sulfated polysaccharides are the likely adhesion agents that maintain the multicellular habit. Charophytes also produce polysaccharide-rich cell walls and in late divergent taxa, pectin plays a critical role in cell adhesion in the multicellular complex. Cell walls are products of coordinated interaction of membrane trafficking, cytoskeletal dynamics and the cell’s signal transduction machinery responding both to precise internal clocks and external environmental cues. Most often, these activities must be synchronized with the secretion, deposition and remodeling of the polymers of the ECM. Rapid advances in molecular genetics, cell biology and cell wall biochemistry of green algae will soon provide new insights into the evolution and subcellular processes leading to multicellularity.
Highlights
A multicellular organism consists of an organized aggregation of cells that are products of geometrically patterned cell divisions which maintain physical communication networks with each other
One of the key cellular features of multicellular green algae as well as all other multicellular photosynthetic eukaryotes is the presence of an extracellular matrix (ECM) that is positioned on the external face of the plasma membrane of each cell
This paper focuses on the role of the cell wall and its inclusive polymers in the development and evolution of multicellular green algae
Summary
A multicellular organism consists of an organized aggregation of cells that are products of geometrically patterned cell divisions which maintain physical communication networks with each other. Significant differences exist in polymer composition of the cell walls of the major green algal lineages expressing multicellularity (e.g., volvocine forms from the chlorophyte line vs charophytes).
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