Scale Formation in Chrysophycean Algae. I. Cellulosic and Noncellulosic Wall Components Made by the Golgi Apparatus

Overview

Journal J Cell Biol

Specialty Cell Biology

Date 1970 May 1

PMID 5513606

Citations 26

Authors

R M Brown Jr

W W Franke

H Kleinig

H Falk

P Sitte

Affiliations

Soon will be listed here.

Abstract

The cell wall of the marine chrysophycean alga Pleurochrysis scherfellii is composed of distinct wall fragments embedded in a gelatinous mass. The latter is a polysaccharide of pectic character which is rich in galactose and ribose. These wall fragments are identified as scales. They have been isolated and purified from the vegetative mother cell walls after zoospore formation. Their ultrastructure is described in an electron microscope study combining sectioning, freeze-etch, and negative staining techniques. The scales consist of a layer of concentrically arranged microfibrils (ribbons with cross-sections of 12 to 25 x 25 to 40 A) and underlying radial fibrils of similar dimensions. Such a network-plate is densely coated with particles which are assumed to be identical to the pectic component. The microfibrils are resistant to strong alkaline treatment and have been identified as cellulose by different methods, including sugar analysis after total hydrolysis, proton resonance spectroscopical examination (NMR spectroscopy) of the benzoylated product, and diverse histochemical tests. The formation and secretion of the scales can be followed along the maturing Golgi cisternae starting from a pronounced dilated "polymerization center" as a completely intracisternal process which ends in the exocytotic extrusion of the scales. The scales reveal the very same ultrastructure within the Golgi cisternae as they do in the cell wall. The present finding represents the first evidence on cellulose formation by the Golgi apparatus and is discussed in relation to a basic scheme for cellulose synthesis in plant cells in general.

Citing Articles

The Golgi ribbon structure facilitates anterograde transport of large cargoes.

Lavieu G, Dunlop M, Lerich A, Zheng H, Bottanelli F, Rothman J Mol Biol Cell. 2014; 25(19):3028-36.

PMID: 25103235 PMC: 4230591. DOI: 10.1091/mbc.E14-04-0931.

Central dilations in maturing Golgi cisternae -a common structural feature among plant cells?.

Franke W Planta. 2014; 90(4):370-3.

PMID: 24499949 DOI: 10.1007/BF00386390.

A microtubular crystal associated with the Golgi field of Pleurochrysis scherffelii.

Brown Jr R, Franke W Planta. 2014; 96(4):354-63.

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Tubular and filamentous structures in pollen tubes: Possible involvement as guide elements in protoplasmic streaming and vectorial migration of secretory vesicles.

Franke W, Herth W, Vanderwoude W, Morre D Planta. 2014; 105(4):317-41.

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Further characterization of the alkali-stable material from the scales of Pleurochrysis scherffelii: A cellulosic glycoprotein.

Herth W, Franke W, Stadler J, Bittiger H, Keilich G, Brown Jr R Planta. 2014; 105(1):79-92.

PMID: 24477706 DOI: 10.1007/BF00385167.

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