Endosidin 5 disruption of the Golgi apparatus and extracellular matrix secretion in the unicellular charophyte<i>Penium margaritaceum</i>

LoRicco, Josephine G; Kozel, Li; Bagdan, Kaylee; Epstein, Ruby; Domozych, David S.

doi:10.1093/aob/mcad054

Annals of Botany

2023

DOI: 10.1093/aob/mcad054

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Endosidin 5 disruption of the Golgi apparatus and extracellular matrix secretion in the unicellular charophytePenium margaritaceum

Josephine G LoRicco

Li Kozel

Kaylee Bagdan

et al.

Abstract: Background and Aims Endosidins are a group of small molecular weight compounds, first identified by “chemical biology” screening assays, that have been used to target specific components of the endomembrane system. In this study, we employed multiple microscopy-based screening techniques to elucidate effects of Endosidin 5 (ES5) on the Golgi Apparatus and the secretion of extracellular matrix (ECM) components, Penium margaritaceum. These effects were compared with those caused by treatments w… Show more

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Cited by 2 publications

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Chemically induced phenotype plasticity in the unicellular zygnematophyte, Penium margaritaceum

LoRicco,

Bagdan,

Sgambettera

et al. 2024

Protoplasma

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Phenotypic plasticity allows a plant cell to alter its structure and function in response to external pressure. This adaptive phenomenon has also been important in the evolution of plants including the emergence of land plants from a streptophyte alga. Penium margaritaceum is a unicellular zygnematophyte (i.e., the group of streptophyte algae that is sister to land plants) that was employed in order to study phenotypic plasticity with a focus on the role of subcellular expansion centers and the cell wall in this process. Live cell fluorescence labeling, immunofluorescence labeling, transmission electron microscopy, and scanning electron microscopy showed significant subcellular changes and alterations to the cell wall. When treated with the actin-perturbing agent, cytochalasin E, cytokinesis is arrested and cells are transformed into pseudo-filaments made of up to eight or more cellular units. When treated with the cyclin-dependent kinase (CDK) inhibitor, roscovitine, cells converted to a unique phenotype with a narrow isthmus zone.

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Chemically induced phenotype plasticity in the unicellular zygnematophyte, Penium margaritaceum

LoRicco,

Bagdan,

Sgambettera

et al. 2024

Protoplasma

View full text Add to dashboard Cite

show abstract

The multifunctional roles of the extracellular matrix in the sessile life of the zygnematophyte Penium margaritaceum: stick, glide and cluster

LoRicco,

Sun,

Bauer

et al. 2024

Physiologia Plantarum

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Adhesion and consequent adoption of a sessile habit is a common feature of many green algae and was likely a key mechanism in terrestrialization by an ancient zygnematophyte (i.e., the Zygnematophyceae, the group of algae ancestral to land plants). Penium margaritaceum is a unicellular zygnematophyte that exhibits a multistep adhesion mechanism, which leads to the establishment of the sessile habit. Based on microscopic and immunological data, a dense aggregate of fibrils containing arabinogalactan‐protein (AGP)‐like components covers the cell surface and is responsible for initial adhesion. The AGP‐like fibrils are 20 μm in diameter and possess chemical profiles similar to land plant AGPs. The fibrils attach to the inner cell wall layers and are very likely connected to the plasma membrane as glycophosphatidylinositol (GPI) lipid‐anchored proteins, as they are susceptible to phospholipase C treatment. The presence of GPI‐anchored AGPs in Penium is further supported by the identification of putative Penium homologs of land plant AGP genes responsible for GPI‐anchor synthesis. After adhesion, cells secrete a complex heteropolysaccharide‐containing extracellular polymeric substance (EPS) that facilitates gliding motility and the formation of cell aggregates. Fucoidan‐like polymers, major components of brown algal CWs, are a major constituent of both the EPS and the adhesive layer of the CW and their role in the adhesion process is still to be examined.

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Endosidin 5 disruption of the Golgi apparatus and extracellular matrix secretion in the unicellular charophytePenium margaritaceum

Cited by 2 publications

References 86 publications

Chemically induced phenotype plasticity in the unicellular zygnematophyte, Penium margaritaceum

Chemically induced phenotype plasticity in the unicellular zygnematophyte, Penium margaritaceum

The multifunctional roles of the extracellular matrix in the sessile life of the zygnematophyte Penium margaritaceum: stick, glide and cluster

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