Monoclonal antibodies (2F4), specific for a conformational epitope of homopolygalacturonic acid induced by calcium ions, were used to compare the nature and the distribution of the pectic polysaccharides in cell walls of compact and friable sugar-beet (Beta vulgarisL. var.altissima) calli, at the electron-microscope level. Labelings performed before or after de-esterification pretreatments of callus sections enabled three major types of pectic polysaccharides to be distinguished within compact calli: (i) acidic pectins, probably with few acetyl ester groups, detected without any de-esterification treatment in expanded areas of cell separation but never on middle lamellae between tightly associated cells; (ii) highly methyl-esterified pectins with an expected low acetyl ester content, recognized by the 2F4 antibodies after pectin methylesterase de-esterification, and mostly located on intercellular junctions and on middle lamellae in the central zones of the calli; (iii) highly methyl-esterified and largely acetylated pectins, only localized after alkaline de-esterification, in all primary walls of the compact calli. By contrast, all pectins of friable calli were highly methyland acetyl-esterified. This was consistent with an average degree of methyl-esterification of about 60 measured in both calli, and a higher average degree of acetylation for the friable callus line (85) compared to the compact one (60). Accordingly, the pectic fraction (acid-soluble) predominant in both calli was acetyl-esterified to 85 in friable callus and to 22 in compact callus cell walls. Friability of sugar-beet callus is thus correlated with an increase in acetylation of its pectin. Labelings of the Golgi apparatus indicate that the pectic polymers of both callus types are synthesized in dictyosomes in a highly methyl-esterified form and are probably subsequently acetyl-esterified.
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