Enrichment of vitronectin‐ and fibronectin‐like proteins in NaCl‐adapted plant cells and evidence for their involvement in plasma membrane–cell wall adhesion

Zhu, Jian‐Kang; Shi, Jun; Singh, Utpal; Wyatt, Sarah E.; Bressan, Ray A.; Hasegawa, Paul M.; Carpita, Nicholas C.

doi:10.1111/j.1365-313x.1993.00637.x

Cited by 107 publications

(35 citation statements)

References 39 publications

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“…Bulging epidermal cells in CBI-treated seedlings have been described before and would support this hypothesis (Hamann et al, 2009;Tsang et al, 2011). Previous work by other research groups has provided additional evidence for the importance of plant cell walls in the regulation of turgor pressure and response to drought/osmotic stress (Zhu et al, 1993(Zhu et al, , 2010Chen et al, 2005). To summarize, the results presented here suggest that a turgor pressure-sensitive mechanism could regulate carbohydrate metabolism and raise the question of whether CBI treatment could generate a hypoosmotic stress situation (since hyperosmotic stress treatments have been shown to suppress the CBI-induced changes in transcript and enhanced starch levels).…”

Section: Discussionsupporting

confidence: 55%

Osmosensitive Changes of Carbohydrate Metabolism in Response to Cellulose Biosynthesis Inhibition

et al. 2012

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Cellulose is the most abundant biopolymer in the world, the main load-bearing element in plant cell walls, and represents a major sink for carbon fixed during photosynthesis. Previous work has shown that photosynthetic activity is partially regulated by carbohydrate sinks. However, the coordination of cellulose biosynthesis with carbohydrate metabolism and photosynthesis is not well understood. Here, we demonstrate that cellulose biosynthesis inhibition (CBI) leads to reductions in transcript levels of genes involved in photosynthesis, the Calvin cycle, and starch degradation in Arabidopsis (Arabidopsis thaliana) seedlings. In parallel, we show that CBI induces changes in carbohydrate distribution and influences Rubisco activase levels. We find that the effects of CBI on gene expression and carbohydrate metabolism can be neutralized by osmotic support in a concentrationdependent manner. However, osmotic support does not suppress CBI-induced metabolic changes in seedlings impaired in mechanoperception (mid1 complementing activity1 [mca1]) and osmoperception (cytokinin receptor1 [cre1]) or reactive oxygen species production (respiratory burst oxidase homolog DF [rbohDF]). These results show that carbohydrate metabolism is responsive to changes in cellulose biosynthesis activity and turgor pressure. The data suggest that MCA1, CRE1, and RBOHDFderived reactive oxygen species are involved in the regulation of osmosensitive metabolic changes. The evidence presented here supports the notion that cellulose and carbohydrate metabolism may be coordinated via an osmosensitive mechanism.

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Section: Discussionsupporting

confidence: 55%

Osmosensitive Changes of Carbohydrate Metabolism in Response to Cellulose Biosynthesis Inhibition

et al. 2012

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“…Wang et al 1994;Gens et al 1996) were indicated in various walled cells by crossreactions with antibodies made against animal adhesion molecules. The involvement of integrins was also supported by sensitivity of adhesions to RGD peptides (Schindler et al 1989, Klotz and Smith 1991, Wayne et al 1992, Zhu et al 1993, Henry et al 1996, Ryu et al 1997, which are known to disrupt focal contacts in animal cells. However, the peptides were not always functional (Holdaway et al 1995), and cloning of the genes for these proteins has either not been successful Carpita 1993, Reuzeau andPont-Lezica 1995), or resulted in completely unrelated genes (Zhu et al 1994, J. Wang et al 1996.…”

Section: Introductionmentioning

confidence: 95%

“…The involvement of integrins was also supported by sensitivity of adhesions to RGD peptides (Schindler et al 1989, Klotz and Smith 1991, Wayne et al 1992, Zhu et al 1993, Henry et al 1996, Ryu et al 1997, which are known to disrupt focal contacts in animal cells. However, the peptides were not always functional (Holdaway et al 1995), and cloning of the genes for these proteins has either not been successful Carpita 1993, Reuzeau andPont-Lezica 1995), or resulted in completely unrelated genes (Zhu et al 1994, J. Wang et al 1996. Plant-specific proteins such as hydroxyproline-rich and arabinogalactan glycoproteins may also be involved , Knox 1995, Reuzeau and Pont-Lezica 1995.…”

Section: Introductionmentioning

confidence: 95%

“…1989, Quatrano etal. 1991, Kaminskyj and Heath 1995, Gens et al 1996, Gale et al 1996, and vitronectin and fibronectin-like proteins in the cell wall (Sanders et al 1991;Wagner et al 1992;Zhu et al 1993Zhu et al , 1994C. Wang et al 1994;Gens et al 1996) were indicated in various walled cells by crossreactions with antibodies made against animal adhesion molecules.…”

Section: Introductionmentioning

confidence: 99%

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Differential cytoplasm-plasma membrane-cell wall adhesion patterns and their relationships to hyphal tip growth and organelle motility

Bachewich

Heath

1997

Protoplasma

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Summary. Plasmolysis of hyphae of the oomycetes Saprolegnia ferax and Achlya ambisexuaIis and the ascomycete Neurospora crassa produced abundant cytoplasmic strands between the retracted cytoplasm and punctate adhesions of the plasma membrane to the cell wall. These strands formed throughout the length of mature hyphae and are the first demonstration of Hechtian strands in hyphae. In contrast to similar strands in various plant cells, the strands in Saprolegnia lacked endoplasmic reticulum but contained F-actin, suggesting similarity between their adhesion sites and focal contacts in animal cells. However, strand adhesion to the wall was insensitive to RGD-containing peptides, suggesting that the trans-membrane adhesion molecules differ from animal integrins. The pattern of plasma membrane-cell wall adhesion varied in different zones along hyphae, with broad, irregular connections in the extreme apex, uniform and continuous connection in a transition zone, and small, punctate adhesions in the mature subapical zone, suggesting differential functions in these different regions. The apical adhesions are important in tip growth, as diverse inhibitors induced concomitant changes in hyphal growth and the adhesions in the apical and transition zones. Plasmolysis also induced cytoplasmic migrations throughout hyphae. Such migrations were dominated by the central cytoplasm, and produced distorted organelles which spanned central and peripheral cytoplasm, thus supporting the idea that the adhesions in mature zones of hyphae anchor the peripheral cytoplasm and facilitate cytoplasmic and organelle migrations.

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“…The glycoproteins labelled by MsS.H9 may be part of a complex that anchors the scales and bristles but still allows for their coordinated movement during cell growth and cytokinesis. Interestingly, immunological homologs to fibronectin, vitronectin and integrin have recently been identified in higher plants (Schindler et al 1989;Sanders et al 1991;Zhu et al 1993;Wang et al 1994) and in the embryo of the brown alga Fucus (Wagner et al 1992). The exact functions of these extracellular glycoproteins have not been fully identified; however, like their animal counterparts, these plant and algal polypeptides do appear to function in cell adhesion.…”

Section: Discussionmentioning

confidence: 99%

High molecular mass glycoproteins associated with the siliceous scales and bristles of Mallomonas splendens (Synurophyceae) may be involved in cell surface development and maintenance

Ludwig

Lind

Miller

et al. 1996

Planta

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Abstract.The elaborate scale case of Mallomonas splendens (Synurophyceae) consists of an overlapping arrangement of siliceous scales. In addition, siliceous bristles are attached to specialized base plate scales located at both the anterior and posterior ends of the cells. We have generated monoclonal antibodies against molecules associated with the scale case of M. splendens. One of these antibodies, designated MsS.H9, labelled a proteinaceous epitope of high-molecular-mass cell surface glycoproteins. Immunofluorescence and immunoelectron microscopy demonstrated that only two regions of M. splendens scale cases were labelled by MsS.H9, namely, the upper surface of the scales that contact neighboring scales and the bases of the bristles. Immunoelectron microscopy using thin sections of M. splendens cells showed these labelling sites corresponded to the amorphous material at the sites of scale-to-scale overlap and to a fibrillar complex located at scale-to-bristle attachment sites. Scales and bristles of M. splendens are formed within the cell, in silica deposition vesicles, lmmunolabelling of cell sections containing developing scales and bristles showed that MsS.H9 labelling sites were present very early in the formation of these cell surface components. MsS.H9 labelling was also found associated with developing flagellar hairs whereas no labelling was detected on these structures after their deployment onto the flagellum. The location of MsS.H9 labelling sites strongly suggests that the molecule(s) recognized by the antibody plays a role in the adhesion of the individual components making up the scale case of M. splendens.

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Enrichment of vitronectin‐ and fibronectin‐like proteins in NaCl‐adapted plant cells and evidence for their involvement in plasma membrane–cell wall adhesion

Cited by 107 publications

References 39 publications

Osmosensitive Changes of Carbohydrate Metabolism in Response to Cellulose Biosynthesis Inhibition

Osmosensitive Changes of Carbohydrate Metabolism in Response to Cellulose Biosynthesis Inhibition

Differential cytoplasm-plasma membrane-cell wall adhesion patterns and their relationships to hyphal tip growth and organelle motility

High molecular mass glycoproteins associated with the siliceous scales and bristles of Mallomonas splendens (Synurophyceae) may be involved in cell surface development and maintenance

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