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1.
Arabinogalactan proteins constitute a class of plant cell surface proteoglycans with widespread occurrence and suggested functions in various aspects of plant growth and development, including cell proliferation, expansion, marking, and death. Previous investigations of subcellular fractions from suspension-cultured cells of "Paul's Scarlet" rose (Rosa sp.) have revealed extensive structural similarity between some soluble arabinogalactan proteins from the cell wall space and some plasma membrane-associated arabinogalactan proteins, thus inspiring the present investigation of the mechanism through which these inherently water-soluble molecules are held on the plasma membrane. Several lines of evidence gained through a combination of methods including reversed-phase chromatography, treatment with phosphatidylinositol-specific phospholipase C, and chemical structural analysis now show that some rose arabinogalactan proteins carry a ceramide class glycosylphosphatidylinositol lipid anchor. The predominant form of the ceramide is composed of tetracosanoic acid and 4-hydroxysphinganine. Plasma membrane vesicles readily shed arabinogalactan proteins by an inherent mechanism that appears to involve a phospholipase. This finding has significance toward understanding the biosynthesis, localization, and function of arabinogalactan proteins and toward stimulating other studies that may expand the currently very short list of higher plant proteins found to carry such membrane lipid anchors.  相似文献   

2.
Root tips of many plant species release a number of border, or border-like, cells that are thought to play a major role in the protection of root meristem. However, little is currently known on the structure and function of the cell wall components of such root cells. Here, we investigate the sugar composition of the cell wall of the root cap in two species: pea (Pisum sativum), which makes border cells, and Brassica napus, which makes border-like cells. We find that the cell walls are highly enriched in arabinose and galactose, two major residues of arabinogalactan proteins. We confirm the presence of arabinogalactan protein epitopes on root cap cell walls using immunofluorescence microscopy. We then focused on these proteoglycans by analyzing their carbohydrate moieties, linkages, and electrophoretic characteristics. The data reveal (1) significant structural differences between B. napus and pea root cap arabinogalactan proteins and (2) a cross-link between these proteoglycans and pectic polysaccharides. Finally, we assessed the impact of root cap arabinogalactan proteins on the behavior of zoospores of Aphanomyces euteiches, an oomycetous pathogen of pea roots. We find that although the arabinogalactan proteins of both species induce encystment and prevent germination, the effects of both species are similar. However, the arabinogalactan protein fraction from pea attracts zoospores far more effectively than that from B. napus. This suggests that root arabinogalactan proteins are involved in the control of early infection of roots and highlights a novel role for these proteoglycans in root-microbe interactions.  相似文献   

3.
How does a plant cell sense and respond to the status of its cell wall? Intercourse between cell wall and cytoplasm has long been supposed to involve arabinogalactan proteins, in part because many of them are anchored to the plasma membrane. Disrupting arabinogalactan proteins has recently been shown to disrupt the array of cortical microtubules present just inside the plasma membrane, implying that microtubules and arabinogalactan proteins interact. In this article, we assess possibilities for how this interaction might be mediated. First, we consider microdomains in the plasma membrane (lipid rafts), which have been alleged to link internal and external regions of the plasma membrane; however, the characteristics and even the existence of these domains remains controversial. Next, we point out that disrupting the synthesis of cellulose also can disrupt microtubules and consider whether arabinogalactan proteins are part of a network linking microtubules and nascent microfibrils. Finally, we outline several signaling cascades that could transmit information from arabinogalactan proteins to microtubules through channels of cellular communication. These diverse possibilities highlight the work that remains to be done before we can understand how plant cells communicate across their membranes.  相似文献   

4.
The cortical array of microtubules inside the cell and arabinogalactan proteins on the external surface of the cell are each implicated in plant morphogenesis. To determine whether the cortical array is influenced by arabinogalactan proteins, we first treated Arabidopsis roots with a Yariv reagent that binds arabinogalactan proteins. Cortical microtubules were markedly disorganized by 1 microM beta-D-glucosyl (active) Yariv but not by up to 10 microM beta-D-mannosyl (inactive) Yariv. This was observed for 24-h treatments in wild-type roots, fixed and stained with anti-tubulin antibodies, as well as in living roots expressing a green fluorescent protein (GFP) reporter for microtubules. Using the reporter line, microtubule disorganization was evident within 10 min of treatment with 5 microM active Yariv and extensive by 30 min. Active Yariv (5 microM) disorganized cortical microtubules after gadolinium pre-treatment, suggesting that this effect is independent of calcium influx across the plasma membrane. Similar effects on cortical microtubules, over a similar time scale, were induced by two anti-arabinogalactan-protein antibodies (JIM13 and JIM14) but not by antibodies recognizing pectin or xyloglucan epitopes. Active Yariv, JIM13, and JIM14 caused arabinogalactan proteins to aggregate rapidly, as assessed either in fixed wild-type roots or in the living cells of a line expressing a plasma membrane-anchored arabinogalactan protein from tomato fused to GFP. Finally, electron microscopy of roots prepared by high-pressure freezing showed that treatment with 5 microM active Yariv for 2 h significantly increased the distance between cortical microtubules and the plasma membrane. These findings demonstrate that cell surface arabinogalactan proteins influence the organization of cortical microtubules.  相似文献   

5.
The nucleotide sequence of a cDNA prepared from poly(A)+ RNA from Lycopersicon esculentum fruit codes for a protein, M r 20812, with features representative of the protein core of arabinogalactan proteins. The deduced amino acid sequence resembles that of peptides of arabinogalactan proteins isolated from carrot and rose and is most similar to the sequence of tryptic peptides from Lolium multiflorum (Gleeson et al., Biochem J 264 (1989) 857–862). The similar sequences include a number of Ala-Pro repeats, a feature considered distinctive of arabinogalactan proteins. The amino acid composition is similar to that of the peptide core of the Lolium multiflorum arabinogalactan protein; alanine, serine and proline account for 57% of the polypeptide. The mRNA corresponding to the cDNA sequence was detected in roots, leaves and fruit. The levels of mRNA are reduced in older leaves, in fruit that have commenced ripening and in leaves and fruit that have been wounded.  相似文献   

6.
J. P. Knox  K. Roberts 《Protoplasma》1989,152(2-3):123-129
Summary A monoclonal antibody (JIM 1) has been derived, subsequent to immunization of rats with carrot protoplasts and a hybridoma screen of protoplast immunoagglutination, that recognizes a determinant at the outer face of the plasma membrane of carrot cells. The binding of JIM 1 is readily inhibitable by -D-galactosyl residues. Although weakly cross-reacting with an extracellular arabinogalactan protein, isolated from the conditioned medium of suspension-cultured carrot cells, JIM 1 does not recognize arabinogalactan proteins associated with the plasma membrane. The plasma membrane antigen recognized by JIM 1 was of low molecular weight and was sensitive to both periodate treatment and a protease. JIM 1 therefore defines a new class of galactosyl-residue containing plant cell surface antigen, distinct from the arabinogalactan proteins. However, the extracellular arabinogalactan protein and related plasma membrane-associated glycoproteins are demonstrated to bind the anti-galactose plant lectin peanut agglutinin.Abbrevations AGP arabinogalactan protein - McAb monoclonal antibody - PNA peanut agglutinin  相似文献   

7.
Extracts from pollen of timothy grass (Phleum pratense L.) contain up to 20% arabinogalactan proteins (AGPs). Separation of the AGP polysaccharide moieties by tryptic digestion, size exclusion chromatography (GPC), and reverse phase HPLC yielded arabinogalactan fractions AG-1 and AG-2 with molecular weights of approximately 15,000 and approximately 60,000Da, respectively. The backbones of both polysaccharides are composed of (1-->6)-linked beta-D-galactopyranosides with beta-D-GlcUAp or 4-O-Me-beta-D-GlcUAp at their terminal ends as revealed by chemical analysis, FT-IR, MALDI-MS, and NMR spectroscopy. AG-1 contains a small number of beta-l-Araf side chains while AG-2 possesses a variety of (1-->3)-linked units, which consist of beta-l-Araf-(1-->, alpha-l-Araf-(1-->3)-beta-l-Araf-(1-->, and alpha-l-Araf-(1-->5)-beta-l-Araf-(1--> as well as a small number of longer arabinogalactan side chains. In contrast to crude pollen extracts, the immunological properties of the arabinogalactan mixture reveal an IgG4 reactivity instead of IgE reactivity. Structural properties of timothy pollen arabinogalactan might thus influence the immune response.  相似文献   

8.
Antibodies to arabinogalactan proteins were tested for binding to sperm cells ofBrassica campestris and to generative cells and sperm ofLilium longiflorum. Two monoclonal antibodies, JIM8 and JIM13, bound toBrassica sperm in pollen grains and pollen tubes and to isolated sperm. Sperm pairs retained within the vegetative cell inner plasma membrane fluoresced more brightly than single sperm, indicating that the vegetative cell inner plasma membrane that surrounds sperm pairs also contains arabinogalactan proteins. Isolated sperm pairs exhibited a uniform fluorescence while single sperm had patches of fluorescence. InLilium, isolated generative cells and single sperm cells bound antibodies in a patchy pattern. Antibodies to arabinogalactan proteins may be useful in describing the overall shape of sperm cells and for identifying sperm among other cell types.  相似文献   

9.
To elucidate the possible roles of pectins during the growth of angiosperm pollen, we studied the distribution and changes in the properties of pectin in the pollen grains and tubes of Camellia japonica, Lilium longiflorum, and five other species at different growth stages by immunoelectron microscopy with monoclonal antibodies JIM5, against de-esterified pectin, and JIM7, against esterified pectin. We also studied the localization of arabinogalactan proteins, which are regarded as pectin-binding proteins, with monoclonal antibodies JIM13 and LM2, against arabinogalactan proteins. Similar results were obtained for all species: JIM5 labeled the intine and part of the callose layer in germinated pollen grains, and labeled the outer layer of the tube wall, the Golgi vesicles, and the callose plug in the pollen germinated in vitro, but did not label any part of immature pollen grains. In contrast, JIM7 labeled the intine of both immature and mature pollen grains, labeled the Golgi vesicles around the Golgi bodies, and strongly labeled the outer layer of the cell wall and the Golgi vesicles in the tube tip region. On the other hand, the distribution of arabinogalactan proteins detected with JIM13 was different for each species, and does not suggest a close relationship between pectin and arabinogalactan proteins. LM2 scarcely reacted with the specimens. We discuss the contribution of pectins to tube wall formation and fertilization and deduce a mechanism of callose plug formation.  相似文献   

10.
Although glycosylphosphatidylinositol (GPI)-anchored proteins have now been found in several plants, very little is known regarding their metabolism there. This report describes studies of the biosynthesis and turnover of arabinogalactan proteins, a class of abundant GPI-anchored proteins secreted by cultured Arabidopsis cells.  相似文献   

11.
Hydroxyproline (Hyp)-rich glycoproteins (HRGPs) participate in all aspects of plant growth and development. HRGPs are generally highly O-glycosylated through the Hyp residues, which means carbohydrates help define the interactive molecular surface and, hence, HRGP function. The Hyp contiguity hypothesis predicts that contiguous Hyp residues are sites of HRGP arabinosylation, whereas clustered noncontiguous Hyp residues are sites of galactosylation, giving rise to the arabinogalactan heteropolysaccharides that characterize the arabinogalactan-proteins. Early tests of the hypothesis using synthetic genes encoding only clustered noncontiguous Hyp in the sequence (serine [Ser]-Hyp-Ser-Hyp)(n) or contiguous Hyp in the series (Ser-Hyp-Hyp)(n) and (Ser-Hyp-Hyp-Hyp-Hyp)(n) confirmed that arabinogalactan polysaccharide was added only to noncontiguous Hyp, whereas arabinosylation occurred on contiguous Hyp. Here, we extended our tests of the codes that direct arabinogalactan polysaccharide addition to Hyp by building genes encoding the repetitive sequences (alanine [Ala]-proline [Pro]-Ala-Pro)(n), (threonine [Thr]-Pro-Thr-Pro)(n), and (valine [Val]-Pro-Val-Pro)(n), and expressing them in tobacco (Nicotiana tabacum) Bright-Yellow 2 cells as fusion proteins with green fluorescent protein. All of the Pro residues in the (Ala-Pro-Ala-Pro)(n) fusion protein were hydroxylated and consistent with the hypothesis that every Hyp residue was glycosylated with arabinogalactan polysaccharide. In contrast, 20% to 30% of Pro residues remained non-hydroxylated in the (Thr-Pro-Thr-Pro)(n), and (Val-Pro-Val-Pro)(n) fusion proteins. Furthermore, although 50% to 60% of the Hyp residues were glycosylated with arabinogalactan polysaccharide, some remained non-glycosylated or were arabinosylated. These results suggest that the amino acid side chains of flanking residues influence the extent of Pro hydroxylation and Hyp glycosylation and may explain why isolated noncontiguous Hyp in extensins do not acquire an arabinogalactan polysaccharide but are arabinosylated or remain non-glycosylated.  相似文献   

12.
Summary. The major noncellulosic polysaccharides and proteoglycans in the coffee bean (Coffea arabica) cell wall are (galacto)mannans and arabinogalactan proteins. Immunological and chemical probes demonstrated that the mannans and arabinogalactan proteins were located continuously across the width of the cell wall, but that the concentration of different structural epitopes within these polysaccharide types showed considerable spatial variation. For the mannans this was implied by the striated pattern demonstrated by fluctuation of the affinity between the mannan monoclonal antibody BGM C6 and (galacto)mannan. The arabinogalactan proteins labelled by the Yariv reagent and the arabinogalactan protein-specific antibody LM2 appeared to be located in all regions of the wall except the middle lamella, but showed some differences in intensity of labelling. However, the LM6 antibody, specific for (15)--arabinan epitopes, was located only as a compact region adjacent to the cell lumen in the body of the endosperm; though, it did label throughout the wall of epidermal cells. This implied that either some of the more highly arabinosylated arabinogalactan proteins contained contiguous 5-arabinosyl residues or that a rhamnogalacturonan which contained 5-arabinosyl residues as side chains existed in the cell wall. In either case the polymers were very restricted in their distribution. A second category of pectin, a homogalacturonan detected by JIM7, was located only in the middle lamella region. The architecture of the wall, as revealed by resin etching, appeared to reflect the chemical heterogeneity, with three distinct physical zones identifiable in a cross section across a single wall.Correspondence and reprints: Nestlé Research Center, Nestec Ltd., Vers-chez-les-Blanc, P.O. Box 44, 1000 Lausanne 26, Switzerland  相似文献   

13.
Summary Monokaryotic haustoria (M-haustoria) ofUromyces vignae inVigna sinensis cells are surrounded by an extrahaustorial matrix (ema) and the invaginated host plasmalemma, the extrahaustorial membrane (ehrn). The ema was characterized with antibodies against components of the plant cell wall; the ema contained hydroxyproline-rich glycoproteins and arabinogalactans/arabinogalactan proteins, both at a higher concentration close to the ehm. Haustoria with large vacuoles had the ema encased by additional layers. An electron-translucent inner layer deposited on top of the ema contained arabinogalactans/arabinogalactan proteins, hydroxyproline-rich glycoproteins, and callose. The inner layer was surrounded by an electron-translucent middle layer with numerous dark inclusions, rich in pectin and fucose bound to xyloglucans. Finally, a more electron-dense outer layer containing arabinogalactans/arabinogalactan proteins and hydroxyproline-rich glycoproteins encased the whole structure. These polysaccharides, with the exception of callose and un-esterified pectin, were also found in the plant Golgi apparatus. The polysaccharides were synthesized in the trans Golgi cisternae and secreted into the host-parasite interface. The secretory events seem to be coupled to endocytosis since numerous coated pits were found on the ehm too. The pits were elongated, sometimes formed tubules and the coat reacted with an antibody against plant clathrin. Our results suggest intensive membrane recycling around haustoria, together with the secretion of cell wall material, which in the case of more or less vacuolated haustoria seems to be responsible for encasementAbbreviations AG/AGP arabinogalactans and arabinogalactan proteins - BSA bovine serum albumin - ehm extrahaustorial membrane - ema extrahaustorial matrix - HRGP2b hydroxyproline rich glycoproteins - M-haustorium monokaryotic haustorium - TBS tris buffered saline  相似文献   

14.
Journal of Plant Growth Regulation - In this study, the presence of calcium oxalate crystals and distribution of arabinogalactan proteins (AGPs) in the ovary of Fragaria x ananassa (Duchesne) were...  相似文献   

15.
As a first step towards studying the biochemical relationship between Golgi vesicles (GVs) and tube wall components, isolation of GVs from the growing pollen tubes ofCamellia japonica was attempted using a centrifugation method with mannitol. The isolated GV was identified ultrastructurally and immunocytochemically. The main components of the GV were proteins and carbohydrates. The main monosaccharides of GV polysaccharides were galactose, arabinose and uronic acid, and pectins and arabinogalactan proteins also were detected immunochemically. An antiserum against the isolated GVs reacted with the outer layer of the pollen tube wall and the intine layers of the grain wall as well as thein situ GVs in the pollen tube and the grain cytoplasm. We have thus successfully isolated GVs and shown that they contain pectic substances and arabinogalactan proteins which contribute to formation of the pollen tube primary wall.  相似文献   

16.
Plant specific O-glycosylation of proteins includes the attachment of arabinogalactan to hydroxyproline (Hyp) residues. These Hyp residues are generated from peptidyl proline residues by the action of prolyl 4-hydroxylase which requires the ferrous ion. We investigated the effect of the ferrous chelator, 2,2'-dipyridyl on tobacco plants, and found that such treatment reduced the arabinogalactosylation of proteins.  相似文献   

17.
Summary Amaranthus hypochondriacus ovules are of the crassinucellate type, having several layers of nucellus cells between the micropyle and the embryo sac through which pollen tubes have to penetrate. The ultrastructural features of the micropylar nucellus cells appear to reflect cells with high metabolic activity. With the monoclonal antibodies MAC207 and JIM8 (against arabinogalactan proteins) we have shown that the presence of the two epitopes was different in the gametophytic tissues and embryo sac. The young embryo and suspensor cells are reactive only to Mab JIM8. The selective presence and localization of these two epitopes was also demonstrated in the micropylar nucellus cells. The expression of these arabinogalactan proteins in this ovule seems to be closely aligned with the pathway of the pollen tube, possibly providing directional guides for tube growth inside the ovule.  相似文献   

18.
19.
G. I. Cassab 《Planta》1986,168(4):441-446
In soybean (Glycine max (L.) Merr.) root nodules the level of hydroxyproline-containing molecules is developmentally regulated. Hydroxyproline accumulates in both nodule cortex and medulla. In the cortex, the hydroxyproline is mainly localized in the cell wall, presumably as extensin, but in the medulla it is mainly in the soluble fraction as an arabinogalactan protein (AGP). Nodule-specific AGPs are present at early nodulation. The highest concentration of AGP is in the nodule medulla, followed by nodule cortex, uninfected roots, leaves, flowers, pods and seeds. Root nodules and all organs of the soybean plant that were tested were found to express a tissue-specific set of arabinogalactan proteins.Abbreviation AGP Arabinogalactan protein  相似文献   

20.
The synthesis of cell walls and extracellular material during the regeneration of carrot ( Daucus carota L. ssp. sativus ) protoplasts was examined. Cell walls and extracellular material were analysed for their carbohydrate content. In cell walls, the amount of carbohydrate increased 4- to 5-fold with only minor changes in neutral sugar composition. Glucose was abundant, during cultivation, making up to 70% (w/w) followed by mannose, which accounted for 17%. This indicates the formation of a glucomannan. The neutral sugar composition of extracellular polysaccharides showed greater variety with a signifiant increase of arabinose and galactose during cultivation. This feature is probably connected to the occurrence of arabinogalactan proteins in the culture medium. Hydroxyproline, an indicator for extensin and arabinogalactan proteins, showed an increase parallel to the formation of cell walls and extracellular polysaccharides. Results are compared with corresponding data from suspension-cultured cells used for protoplast isolation.  相似文献   

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