Vesicle formation in the membrane of onion cells (Allium cepa) during rapid osmotic dehydration

doi:10.1093/aob/mcp256

AOBPreview originally published online on October 14, 2009
Annals of Botany 2009 104(7):1389-1395; doi:10.1093/aob/mcp256

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Vesicle formation in the membrane of onion cells (Allium cepa) during rapid osmotic dehydration

Akym Assani¹^,, Sylvie Moundanga²^,, Laurent Beney² and Patrick Gervais²^,*

¹ Department of Plant Agriculture, University of Guelph, Bovey Building, Guelph, Ontario, N1G 2W1, Canada
² Laboratoire de Génie des Procédés Microbiologiques et Alimentaires, Université de Bourgogne/AgroSup Dijon, 1 Esplanade Erasme, 21000 Dijon, France

^* For correspondence. E-mail gervais{at}u-bourgogne.fr

Received: 3 April 2009 Returned for revision: 19 May 2009 Accepted: 1 June 2009 Published electronically: 14 October 2009

Background and Aims: Optimization of osmotic dehydration in different plant cellshas been investigated through the variation of parameters suchas the nature of the sugar used, the concentration of osmoticsolutions and the processing time. In micro-organisms such asthe yeast, Saccharomyces cerevisiae, the exposure of a cellto a slow increase in osmotic pressure preserves cell viabilityafter rehydration, while sudden dehydration involves a lowerrate of cell viability, which could be due to membrane vesiculation.The aim of this work is to study cytoplasmic vesicle formationin onion epidermal cells (Allium cepa) as a function of thekinetics of osmotic pressure variation in the external medium.

Methods: Onion epidermal cells were submitted either to an osmotic shockor to a progressive osmotic shift from an osmotic pressure of2 to 24 MPa to induce plasmolysis. After 30 min in the treatmentsolution, deplasmolysis was carried out. Cells were observedby microscopy during the whole cycle of dehydration–rehydration.

Key Results: The application of an osmotic shock to onion cells, from aninitial osmotic pressure of 2 MPa to a final one of 24 MPa for<1 s, led to the formation of numerous exocytotic and osmocyticvesicles visualized through light and confocal microscopy. Incontrast, after application of a progressive osmotic shift,from an initial osmotic pressure of 2 MPa to a final one of24 MPa for 30 min, no vesicles were observed. Additionally,the absence of Hechtian strand connections led to the burstingof vesicles in the case of the osmotic shock.

Conclusions: It is concluded that the kinetics of osmotic dehydration stronglyinfluence vesicle formation in onion cells, and that Hechtianstrand connections between protoplasts and exocytotic vesiclesare a prerequisite for successful deplasmolysis. These resultssuggest that a decrease in the area-to-volume ratio of a cellcould cause cell death following an osmotic shock.

Key words: Allium cepa, vesicle formation, kinetics, osmotic, osmocytosis, exocytosis, plasmolysis, Lucifer Yellow CH

These authors contributed equally to this work.

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