Effects of air pollutants on proton and sucrose transport at the plasma membrane of Ricinus communis

Background Fluoride pollution is a global problem because of its high phytotoxicity. Fluoride is released in air, water and soil through industrial processes, where it damages various plant species. Ricinus communis is widely distributed in Brazil, India and China and has been extensively used as a phytoremediation species in heavy metal-contaminated soils. However, few studies regarding the effect of air pollutants on R. communis have been published, and no information about the exposure of this species to fluoride is available. Therefore, the aim of the present study was to investigate the effects of fluoride on R. communis morphoanatomical and physiological responses using simulated rainfall containing potassium fluoride (KF). Methods Young plants at approximately 10 days after emergence were treated daily with KF using simulated rainfall at 0, 1.5, 3.0 and 4.5 mg L−1, for 37 consecutive days. Chlorophyll a fluorescence, gas exchange, anatomical characteristics and fluoride accumulation in the roots and leaves were evaluated after this period. Results No visual or anatomical symptoms were observed for the first three treatments. Necrosis and chlorosis were visually evident after the 37th day of KF application at 4.5 mg L−1, followed by changes in parenchyma tissues, cell collapse and phenolic compound accumulation at the end of the experiment. No damage was observed in terms of photosynthetic photochemical and biochemical stages. Maintenance of physiological characteristics in the presence of fluoride accumulation in roots and leaves were shown to be important fluoride biomarkers. These characteristics suggest that R. communis is tolerant to 1.5 and 3.0 mg L−1 KF, and is anatomically sensitive at 4.5 mg L−1 KF.

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Variability in protein content of pollen of Castor bean (Ricinus communis) before and after exposure to the air pollutants SO and NO

Grana ◽

10.1080/00173130410019316 ◽

2004 ◽

Vol 43 (2) ◽

pp. 94-100 ◽

Cited By ~ 13

Author(s):

Arnima Bist ◽

Terlika Pandit ◽

Ashok K Bhatnagar ◽

Anand B Singh

Keyword(s):

Protein Content ◽

Castor Bean ◽

Air Pollutants ◽

Ricinus Communis ◽

Before And After

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THE DISTRIBUTION AND ASYMMETRY OF MAMMALIAN CELL SURFACE SACCHARIDES UTILIZING FERRITIN-CONJUGATED PLANT AGGLUTININS AS SPECIFIC SACCHARIDE STAINS

The Journal of Cell Biology ◽

10.1083/jcb.60.1.236 ◽

1974 ◽

Vol 60 (1) ◽

pp. 236-248 ◽

Cited By ~ 159

Author(s):

Garth L. Nicolson ◽

S. J. Singer

Keyword(s):

Plasma Membrane ◽

Mammalian Cell ◽

Plasma Membranes ◽

Ricinus Communis ◽

Membrane Surface ◽

Cell Plasma ◽

Cytoplasmic Face ◽

Topographical Distribution ◽

Wide Range ◽

Line Process

The preparation, properties, and some applications of ferritin conjugates of two plant agglutinins, concanavalin A and Ricinus communis agglutinin, are reported. These conjugates serve as specific electron-dense stains for cell- and membrane-bound saccharide residues of the α-D-mannopyranosyl and ß-D-galactopyranosyl configurations, respectively, and as examples of a wide range of ferritin-plant agglutinin conjugates useful as high resolution saccharide stains. By using a technique for preparing flattened membrane specimens, it was found with a variety of mammalian cell plasma membranes (lymphocyte, lymphoma, and myeloma and normal, spontaneously and virally transformed fibroblasts) that the ferritin conjugates were localized exclusively to the exterior face of the membrane, with essentially none found on the cytoplasmic face. On the exterior face the topographical distribution of ferritin conjugates appeared to be random. The asymmetrical distribution of saccharide residues to the outer membrane face can be explained by an "assembly line" process whereby new plasma membrane is made from intracellular precursor membranes. It also suggests that the saccharide-containing components of the plasma membrane do not rotate at any appreciable rate from one membrane surface to the other.

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Rapid screening of possible cytotoxic effects of particulate air pollutants by measurement of changes in cytoplasmic free calcium, cytosolic pH, and plasma membrane potential in alveolar macrophages by flow cytometry

Cytometry ◽

10.1002/1097-0320(20010301)43:3<204::aid-cyto1051>3.0.co;2-z ◽

2001 ◽

Vol 43 (3) ◽

pp. 204-210 ◽

Cited By ~ 5

Author(s):

Attila T�rnok ◽

Martina D�rger ◽

Ingeborg Berg ◽

G�nther Gercken ◽

Thomas Schl�ter

Keyword(s):

Flow Cytometry ◽

Plasma Membrane ◽

Membrane Potential ◽

Alveolar Macrophages ◽

Air Pollutants ◽

Rapid Screening ◽

Free Calcium ◽

Cytosolic Ph ◽

Cytotoxic Effects ◽

Plasma Membrane Potential

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Inhibition of lymphocyte 5′-nucleotidase by lectins: effects of lectin specificityand cross-linking ability

Biochemistry and Cell Biology ◽

10.1139/o88-082 ◽

1988 ◽

Vol 66 (7) ◽

pp. 715-723 ◽

Cited By ~ 3

Author(s):

Frances J. Sharom ◽

Mary P. Lamb ◽

Christine C. Kupsh ◽

Susan Head

Keyword(s):

Plasma Membrane ◽

Phaseolus Vulgaris ◽

Binding Site ◽

Concanavalin A ◽

Wheat Germ ◽

Enzyme Inhibitor ◽

Ricinus Communis ◽

Cross Linking ◽

Griffonia Simplicifolia ◽

Positive Cooperativity

5′-Nucleotidase, an integral glycoprotein enzyme of the lymphocyte plasma membrane, is inhibited cooperatively by the lectin concanavalin A. Because divalent succinyl-concanavalin A is a poor enzyme inhibitor, both binding and lectin-induced cross-linking of 5′-nucleotidase may be necessary for inhibition. Succinyl-concanavalin A does not compete with concanavalin A for binding to the enzyme; however, maleyl-concanavalin A, another poor inhibitor, competes effectively with the parent lectin. Thus, maleyl-concanavalin A binds to the same site as concanavalin A but causes little inhibition, whereas succinyl-concanavalin A does not bind to this site. The monovalent lectin from Ricinus communis (RCA-60) is a more effective enzyme inhibitor than the related divalent lectin (RCA-120), and inactivation of the second low-affinity sugar binding site on RCA-60 does not abolish inhibition, suggesting that multivalent cross-linking is not required for 5′-nucleotidase inhibition. Peanut and wheat germ agglutinins do not inhibit the enzyme, whereas lectins from lentil, pea, soybean, Griffonia simplicifolia, and Phaseolus vulgaris inhibit 5′-nucleotidase with various degrees of effectiveness. The only lectin showing strong positive cooperativity in its interaction with 5′-nucleotidase is concanavalin A.

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