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Sequential patterns of intramural digestion of galactoxyloglucan in tamarind seedlings (1987)

Reis, D. ; Vian, B. ; Darzens, D. ; [et al.]

Springer

Planta 170 (1987), S. 60-73

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ISSN: 1432-2048

Keywords: Amyloid ; Cell wall breakdown ; β-Galactosidase ; Reserve mobilisation ; Seed germination ; Storage wall ; Tamarindus

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The structure and breakdown of galactoxyloglucan (GXG)-rich cells was studied from cotyledons of Tamarindus indicus L. The depletion of GXG was followed at different levels: quantitative, histochemical and cytochemical. At the ultrastructural level two probes were used: one general for polysaccharides (periodic acid — thiocarbohydrazide — silver proteinate test), the other specific for the terminal galactosyl residues of GXG (β-galactosidase-gold complex). They were complemented by water-extraction of the GXG and analysis of the constituting monosaccharides by gas chromatography. Despite their collenchymateous aspect and the chemical similarity of the reserve GXG with the structural xyloglucan of growing walls, the thickened storage walls are not interpretable as being an hypertrophied primary wall. The tamarind cells produce an original type of wall construction in which GXGs are sequestered in a sort of homomolecular bulk. There is no evidence for intussusception of the molecules within a network of cellulose. The bulk of GXG is sandwiched between two thin layers: the outer is comparable to a regular primary wall, the inner behaves like a barrier during GXG withdrawal. Temporal and spatial patterns of GXG-mobilisation lead to the definition of a sequence of stages of cell activities (premobilising, mobilising, postmobilising). They are synchronized with the growth of the seedling axis, the duration and characteristics of the stages being subordinated to the location of the cells within the organ. Cell lysis is initiated in close relationship with intramural cavities. The development of digestion pockets results in a highly digested wall. The barrier prevents any engulfing of the cytoplasm in the wall clefts and creates an increasing free space. The attack front of digestion is always sharp. During all steps, the monosaccharide composition remains stable. At the end of GXG depletion, the storage wall is withdrawn and cells are rendered in a parenchyma-like state. The breakdown is not a complete wall collapse but an original controlled and limited wall-thinning. The data lead to the speculation that the hydrolytic activities result from a complementation between precursors relinquished by the cytoplasm and factors already present in the storage wall.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00392382

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Morphogenesis of plant cell walls at the supramolecular level: Internal geometry and versatility of helicoidal expression (1987)

Roland, J. C. ; Reis, D. ; Vian, B. ; [et al.]

Springer

Protoplasma 140 (1987), S. 75-91

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ISSN: 1615-6102

Keywords: Cell wall ; Helicoidal texture ; Modelling ; Flexibility ; Cellulose

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The concept of the cell wall organized in a helicoidal pattern was outlined. When studied in transmission electron microscopy, the observed textures appear as a deceptive figure,i.e., as a “trompe l'oeil”. Difficulties—both technological and visual in the reconstitution of the actual geometry (exposure of the microfibrillar framework, 3-dimensional and 4-dimensional restoration), and the interest of simple modelling to understand the changes in cellulose orientation according to space and time are emphasized. The morphogenesis of helicoidal walls presents two main characteristics: it is both very defined and flexible, thus adaptable to varied programs of differentiation and to different environmental conditions. The observations of various cell examples and of responses to experimental treatments, lead to the following considerations: a) the shift of cellulose occurs continuously with time through a constant mutual angle. The wall seems to be built up as an indefinite continuum and forms a monotonous oscillatory system (unvarying motion); b) the shift of cellulose occurs through a mutual angle variable with time (varying motion, change from monotonous helicoid to bimodal helicoid, or sporadic bursts with arrested motion). The helicoidal wall appears as a fibrous composite with multifunctional possibilities ranging from fluidity to stiffness. The helicoidal assembly is remarkably adaptable to different physiological conditions of growth and specialization.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01273716

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The sustained and warped helicoidal pattern of a xylan-cellulose composite: the stony endocarp model (1992)

Reis, D. ; Roland, J. C. ; Mosiniak, M. ; [et al.]

Springer

Protoplasma 166 (1992), S. 21-34

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ISSN: 1615-6102

Keywords: Cell wall ; Cellulose ; Xylan ; Disclinations ; Liquid crystal ; Cholesteric mesophases

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The study was devoted to the microstructure of the thick walled cells of the endocarp of prune (Prunus domestica L.), cherry (Prunus cerasus L.), walnut (Juglons regia L.). The tissue is formed of closely associated cells showing a homogeneous development characterized by an intense constructive activity of ordered walls with a typically twisted pattern (cholesteric-like). The arced layers are produced in tens, each corresponding to a 180° full rotation of the molecules (axis of rotation oriented radially) and their succession gives rise to a basic regular and monotonous periodicity. On the other hand, observation of the tissue revealed the large capacity of the helicoidal morphogenesis to adjust itself under the influence of two topological contingent constraints: (1) the spherical shape (and derivated shapes) of the cell and (2) the numerous pit canals which maintain the symplastic transport and produce a recess during the construction of the wall. Spherical shape (closed surfaces) and recess both introduce additional internal strains which are relieved by deviations of the molecular array in the basic pattern (moiré and knotty aspects). Special attention was given to the defects integrated in the spherical twist. The defects emerging in the angled stacks of microfibrils (disclinations, distortions) were a diagnostic feature of an actual liquid crystal behaviour under mechanical constraints. The abundance of such defects, of cusps and spiral motions strengthened the hypothesis that a transient fluid phase, later on consolidated and stiffened, operates during the cellulose ordering. The saddle-like figures developed in the complex polylobed situation of walnut were particularly demonstrative. The fractionation of the secondary wall yielded the glucidic matrix in the same ratio as cellulose. The bulk of this embedding matrix was composed of acidic xylans more or less tightly bound to the microfibrils. The coat of negatively charged polysaccharides visualized by the binding of cationic gold to wall strips might be expected to act as a surfactant generating an electrostatic repulsion between microfibrils. This could be a cooperative mechanism for the self-positioning (aligment in sheets and progressive rotation) of the composite.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01320139

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