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Immunocytochemical location of hydroxyproline rich glycoproteins at the interface between a mycorrhizal fungus and its host plants (1991)

Bonfante-Fasolo, P. ; Tamagnone, L. ; Peretto, R. ; [et al.]

Springer

Protoplasma 165 (1991), S. 127-138

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ISSN: 1615-6102

Keywords: Cell wall ; Hydroxyproline rich glycoproteins ; Interface zone ; Mycorrhizal fungi ; Pea ; Leek

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary When vesicular-arbuscular mycorrhizal (VAM) fungi colonize the cortical cells of their host plant roots, the hyphae are separated from the host cytoplasm by the invaginated host plasmalemma and interfacial material. The presence of hydroxyproline rich glycoproteins (HRGPs) at the interface was investigated with a polyclonal antibody obtained against melon callus HRGP2b. By using a combination of cytochemical methods, antigens were detected in pea, in both the presence and absence ofGlomus versiforme, a mycorrhizal fungus. For comparison, observations were performed in parallel with leek as a monocot host. Antigens were localized over the pea cell wall in root tissues. At the ultrastructural level, gold granules were mostly present in the periplasmic space. In mycorrhizal plants, the most substantial deposition occurred at the interface between the fungal wall and the host membrane. Dot blot experiments revealed HRGP2b antigens in soluble root fractions from both uninfected and mycorrhizal samples. The results demonstrate that HRGP2b antigens can be localized over the cell wall of both dicot and monocot hosts, although they mostly occur in the contact zone in infected samples. Their presence-in the company of localized glucans and pectins-means that the contact zone can be regarded as an apoplastic space presenting a structural response to the symbiotic mycorrhizal status.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322283

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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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Cholesteric-like crystal analogs in glucuronoxylan-rich cell wall composites: Experimental approach of acellular re-assembly from native cellulosic suspension (1994)

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

Springer

Protoplasma 180 (1994), S. 70-81

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ISSN: 1615-6102

Keywords: Cell wall ; Cellulose/glucuronoxylan ; Acellular assembly ; Cholesteric analog

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Many plant cell walls are constructed according to a helicoidal pattern that is analog to a cholesteric liquid crystal order. This raises the question whether the wall assembly passes through a true but temporary liquid crystal state. The paper focuses on experiments performed from aqueous suspensions of extracted quince slime, i.e., a cellulose/glucuronoxylan wall composite that presents a helicoidal order when observed in situ, within the enlarged periplasm of the seed epidermal cells. Experiments carried out in acellular conditions showed that a spontaneous reassociation into a helicoidal order can be obtained from totally dispersed suspensions. The ultrastructural aspect of the reassembled mucilage suspension was different according to the resin used (LR White or nanoplast, a water-soluble melamin resin). It was always typically polydomain, and when an order was visible it was cholesteric-like and similar to the in situ native organization. Transition states with many imperfections expressed the difficulty of the system to reassemble in the absence of constraining surfaces. The possible intervention of glucuronoxylan (GX) in the ordered assembly of the microfibrils was checked by: (1) progressive extraction of GX by trifluoroacetic acid (TFA). The extraction was associated to a control of the fraction by analysis of uronic acid contents and observation at the electron microscope level. Extraction of GX provoked the formation of a flocculent mass, the flocculation being more intense when the TFA was more concentrated; (2) progressive change of pH in order to analyze the influence of pH on flocculation. Low pH (ca. pH 3) led also to a flocculation of the suspension, but the floc was reversibly lost after dialysis against distilled water. The results indicate the antifloc role of the GX due to the anionic charges carried by the side-chains. However, the function of GX as helper twisting agent in the cholesteric-like reassembly must not be ruled out.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01379225

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Enzyme-gold cytochemistry of seed xyloglucans using two xyloglucan-specific hydrolases. Importance of prior heat-deactivation of the enzymes (1991)

Vian, B. ; Nairn, J. ; Reid, J. S. G.

Springer

Journal of molecular histology 23 (1991), S. 116-124

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ISSN: 1573-6865

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Two pure, homogeneous xyloglucan-hydrolyzing enzymes from germinated nasturtium seeds have been used to localize xyloglucans specifically in seed cell walls. The enzymes, a novelendo (1→4)-β-d-glucanase which shows absolute specificity towards xyloglucans and a β-d-galactosidase which is capable of removing galactosyl residues from polymeric xyloglucans, were used to stabilize gold sols. The complexes were applied to ultrathin sections of nasturtium (Tropaeolum majus L) and tamarind (Tamarindus indica L) seeds. The gold complexes prepared from the active enzyme proteins retained enzyme activity, and such complexes gave extremely weak section-labelling or no labelling at all. When the enzymes were subjected to heat-deactivation before being used to stabilize the gold sols, gold complexes were obtained which lacked enzyme activity, but which gave strong, specific labelling of xyloglucans in ultrathin sections. The specificity of the labelling was checked by substrate-competition, by pretreatment of sections with the active and heat-denaturated enzymes and by comparing the labelling of xyloglucan-containing storage cells with other cell types in the same section. The labelling was maximal at the pH which was optimal for the active enzyme. We conclude that the enzyme-gold complexes which retain high activity against the substrate to be localized are likely to be unsuitable as cytochemical probes because they may causein situ substrate modification. In the case of the enzyme complexes described here the specific localization obtained with the gold complexes prepared from heat deactivated enzymes may be attributable to the retention by the heat-treated enzymatically-inactive proteins of substrate recognition. Alternatively, some recovery of the native configuration of the heat-denatured protein may have occurred on adsorption to the surface of the colloidal gold particle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01047456

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