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Cellulose cell-walls, biosynthesis

Ranik M. and Myburg A. A. 2006. Six new cellulose synthase genes from Eucalyptus are associated with primary and secondary cell wall biosynthesis. Tree Physiology 26 545-556. [Pg.104]

This system is organized in vascular plants as a 30 nm diameter plasma membrane complex, known as the rosette TC, that was first described by Mueller and Brown more than 25 years ago [42]. The rosette is composed of an estimated 36 subunits comprising at least three types of cellulose synthase A proteins. All three components have been shown to be essential for correct assembly and enzymatic activity of the complex in Arabidopsis [43, 44]. The physical interaction of these three components has recently been demonstrated by bimolecular fluorescence complementation [45]. The system also offers a beautiful example of the functional aspects of this organization, as cortical microtubules guide the movement of cellulose synthase complexes through the plasma membrane during cell wall biosynthesis [46,47],... [Pg.199]

Further support for cell wall biosynthesis as a target site was provided by Umetsu et al, who reported abnormal swelling of cultured soybean cells treated with dichlobenil. Dichlobenil was also shown to be an effective and reversible inhibitor of cell wall formation in tobacco protoplasts. It was considerably more potent than other cell wall inhibitors, such as coumarin, and it caused the formation of multinucleate protoplasts. Inhibition of cellulose biosynthesis prevented cell wall formation and cytokinesis but nuclear division that is, mitosis was unaffected. Further studies with tobacco protoplasts confirmed the specific and potent inhibition associated with the cellulose-synthesizing complex at the plasma membrane. [Pg.149]

Source Adapted from various sources including (i) Wood chemistry , E. Sjostrom, 2nd edition, 1993, p. 52 (ii) Cellulose Biosynthesis , D.F. Delmer, Ann. Rev. Plant Physiol., 1987, 38, 259-290 (iii) Biosynthesis in Plant Cell Walls , D.F. Delmer, in The Biochemistry of Plants , vol. 14, Academic Press, San Diego, 1988, pp. 373-420). [Pg.22]

Plant cell walls are complex, heterogeneous structures composed mainly of polymers, such as cellulose, hemicelluloses, and lignins. In spite of several decades of research, cell wall assembly and the biosynthesis and ultimate biodegradative pathways of individual polymers are still far from being fully understood. One simple example will suffice Even today, no enzyme capable of catalyzing cellulose formation in vitro has been obtained. [Pg.1]

Our electron microscopy observations have revealed some of the roles of cell organellae involved in biosynthesis of cell wall components (i) the plasma membrane is the site of cellulose synthesis. This supports the proposal that terminal and rosette complexes at the plasma membrane are responsible for cellulose synthesis, (ii) The Golgi-bodies and small circular vesicles derived from the r-ER s are involved in the biosynthesis and/or transport of the hemicelluloses. Our investigations, however, could not distinguish between what type of cell organellae contained what kind of hemicelluloses, and how these polymers were processed in the organellae. [Pg.65]

Cellulose, a polysaccharide consisting of linear 1,4-/ -D-anhydroglucopyra-nose chains laterally associated by hydrogen bonds, is the most abundant and commercially important plant cell wall polymer (1). Consequently, cellulose is also one of the most thoroughly investigated plant cell wall polymers. However, it is enigmatic in the sense that significant elements of cellulose physical structure and the mechanism of cellulose biosynthesis still are not well understood. Since these subjects have been reviewed recently (2-10), this review will update topics covered previously and provide a new analysis of selected topics of contemporary interest. [Pg.232]

Polyoxins are inhibitors of chitin biosynthesis. Chitin is a component of fungal cell walls except in Phycomycete fungi these contain cellulose as their major cell wall constituent, hence polyoxins are inactive against Plasmopara, Pythium and Phytophthora. [Pg.135]

Brown, R. M., Herth, W., Franke, W. W., Romanovicz, D. The role of the Golgi apparatus in the biosynthesis and secretion of a cellulosic glycoprotein in Pleurochrysis a model system for the synthesis of structural polysaccharides. In Biogenesis of plant cell wall polysaccharides, pp. 207. Loewus, F. (ed.). New York Academic Press 1973... [Pg.142]

The biosynthesis of cellulose is less well understood than that of glycogen or starch. As a major component of the plant cell wall, cellulose must be synthesized from intracellular precursors but deposited and assembled outside the plasma membrane. The enzymatic machinery for initiation, elongation, and export of cellulose chains is more complicated than that needed to syn-... [Pg.775]

The primary cell-wall of plants is formed by microfibrils of cellulose in a complex matrix of polysaccharides, proteins, and glycoproteins. The structure and relationship of the different components is under continuous study and revision, and most of them can now be identified and their biosynthesis studied.124"126... [Pg.358]


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See also in sourсe #XX -- [ Pg.42 , Pg.325 , Pg.326 ]




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