Pectin‐like carbohydrates in the green alga Micrasterias characterized by cytochemical analysis and energy filtering TEM

Summary Pectins are the major matrix polysaccharides of plant cell walls and are important for controlling growth, wall porosity and regulation of the ionic environment in plant cells. Pectic epitopes recognized by the monoclonal antibodies JIM5, JIM7 and 2F4 could be localized in the primary wall d...

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Bibliographic Details
Published in:Journal of microscopy (Oxford) 2008-08, Vol.231 (2), p.201-214
Main Authors: EDER, M., LÜTZ‐MEINDL, U.
Format: Article
Language:English
Subjects:
Adhesives - analysis
Antibodies, Monoclonal - metabolism
Calcium - analysis
Calcium‐binding capacities
Carboxylic Ester Hydrolases - metabolism
cell wall
Cell Wall - chemistry
Chlorophyta - chemistry
EELS
electron spectroscopic imaging
Immunohistochemistry
immunolabelling
Micrasterias
Microscopy
Microscopy, Electron, Transmission
Microscopy, Energy-Filtering Transmission Electron
pectin methylesterase
Pectins - analysis
polysaccharides
secretion
transmission electron microscopy
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Summary:Summary Pectins are the major matrix polysaccharides of plant cell walls and are important for controlling growth, wall porosity and regulation of the ionic environment in plant cells. Pectic epitopes recognized by the monoclonal antibodies JIM5, JIM7 and 2F4 could be localized in the primary wall during development of the green alga Micrasterias. As the degree of pectin esterification determines the calcium‐binding capacity and thus the physical properties of the cell wall, chemical and enzymatic in situ de‐esterification was performed. This resulted in displacement of epitopes recognized by JIM5, JIM7 and 2F4, respectively, in changes in the intensity of the antibody labelling as visualized in CLSM. In addition, calcium‐binding capacities of cell walls and components of the secretory apparatus were determined in transmission electron microscopy by electron energy loss spectroscopy and electron spectroscopic imaging. These analyses revealed that pectic polysaccharides are transported to the cell wall in a de‐esterified form. At the primary wall, pectins get methyl‐esterified at the inner side, thus allowing flexibility of the wall. At the outer side of the wall they become again de‐esterified and bind high amounts of calcium which leads to cell wall stiffening. Mucilage vesicles posses the highest calcium‐binding capacity of all structures observed in Micrasterias, indicating that the pectic polysaccharides of mucilage are secreted in a de‐esterified, compact form. When mucilage is excreted through the cell wall, it loses its ability to bind calcium. The esterification of pectins involved is obviously required for swelling of mucilage by water uptake, which generates the motive force for orientation of this unicellular organism in respect to light. Incubation of Micrasterias in pectin methylesterase (PME), which de‐esterifies pectic polymers in higher plants, resulted in growth inhibition, cell shape malformation and primary wall thickening. A PME‐like enzyme could be found in Micrasterias by PME activity assays.
ISSN:0022-2720
1365-2818
DOI:10.1111/j.1365-2818.2008.02036.x