REACTIONS OF NORMAL AND TUMOR CELL SURFACES TO ENZYMES. I. WHEAT-GERM LIPASE AND ASSOCIATED MUCOPOLYSACCHARIDES
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The fluidity of normal and virus-transformed cell plasma membrane.Glycolipids of hamster fibroblasts and derived malignant-transformed cell linesThe binding of peroxidase-labelled lectins to human endometrium in normal cyclical endometrium and endometrial adenocarcinoma.Ligands containing heavy atoms: perturbation of phosphorescence of a tryptophan residue in the binding site of wheat germ agglutinin.Increased uptake of amino acids and 2-deoxy-D-glucose by virus-transformed cells in cultureAltered growth behavior of malignant cells associated with changes in externally labeled glycoprotein and glycolipid.Detection and quantitation of simian virus 40 genetic material in abortively transformed BALB-3T3 clones (mice-diploid cells-virus equivalents)Colchicine affects kinetics of concanavalin a-mediated agglutination of hepatoma cells and plasma membranes from liver and hepatoma cells.A comparative evaluation of the distribution of concanavalin A-binding sites on the surfaces of normal, virally-transformed, and protease-treated fibroblastsCell contact-dependent increase in membrane D-galactopyranosyl-like residues on normal, but not virus- or spontaneously-transformed, murine fibroblastsDifferential lectin agglutination of fetal, dividing-postnatal, and malignant hepatocytes.Cholera toxin and cell growth: role of membrane gangliosides.Identification of a tumor-specific determinant on neoplastic cell surfaces.Growth of normal and transformed rat embryo fibroblasts: effects of glycolipids from Salmonella minnesota R mutants.Effects of colchicine, cytochalasin B, and 2-deoxyglucose on the topographical organization of surface-bound concanavalin A in normal and transformed fibroblastsScanning electron microscopy of in vitro chemically transformed mouse embryo cells.Differences in hydropathic properties of ligand binding at four independent sites in wheat germ agglutinin-oligosaccharide crystal complexesStudies on reactivity of tumor and normal cells to a wheat germ agglutinin.Reactions of normal and leukemic cell surfaces to a wheat germ agglutinin.Interaction of the carbohydrate-binding protein concanavalin A with normal and transformed cells.A difference in the architecture of the surface membrane of normal and virally transformed cells.Microtubules and the fluidity of the cell surface.Differences in membrane fluidity and structure in contact-inhibited and transformed cells.Temperature-dependent surface changes in cells infected or transformed by a thermosensitive mutant of polyoma virus.Further changes in differentiation state accompanying the conversion of Chinese hamster cells of fibroblastic form by dibutyryl adenosine cyclic 3':5'-monophosphate and hormones.Proteins from plant cell walls inhibit polygalacturonases secreted by plant pathogens.Cyclic membrane changes in animal cells: transformed cells permanently display a surface architecture detected in normal cells only during mitosis.Leczyme: a new candidate drug for cancer therapy.Significance of a galactose specific plant lectin for the differential diagnosis of adenocarcinoma cells in effusion.Lectin-sugar interactions: the binding of 1-O-methyl-di-N-trifluoroacetyl-beta-chitobioside to wheat germ agglutinin.Protein--sugar interactions. A nuclear magnetic resonance investigation of the binding of O-methyl-di-N-acetyl-beta-chitobioside to wheat germ agglutinin (lectin).Protein-sugar interactions. Association of wheat germ agglutinin (lectin) and O-(4-methyl-umbelliferyl)-glycosides.Protein-sugar interactions. Association of beta-(1 leads to 4) linked N-acetyl-D-glucosamine oligomer derivatives with wheat germ agglutinin (lectin).Simple sugars to complex disease--mucin-type O-glycans in cancer.Development and Applications of Lectins as Biological Tools in Biomedical Research.Glycobiology of the cell surface: Its debt to cell electrophoresis 1940-65.Lectin Histochemistry: Historical Perspectives, State of the Art, and the Future.Staining tumor cells with biotinylated ACL-I, a lectin isolated from the marine sponge, Axinella corrugata.Mycoplasma and leukemia.Glycophorin A interferes in the agglutination of human erythrocytes by concanavalin A. Explanation of the requirement for enzymic predigestion.
P2860
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P2860
REACTIONS OF NORMAL AND TUMOR CELL SURFACES TO ENZYMES. I. WHEAT-GERM LIPASE AND ASSOCIATED MUCOPOLYSACCHARIDES
description
1963 nî lūn-bûn
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1963年の論文
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1963年学术文章
@wuu
1963年学术文章
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1963年学术文章
@zh-hans
1963年学术文章
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1963年学术文章
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1963年學術文章
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1963年學術文章
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1963年學術文章
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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P2093
P2860
P356
P1476
REACTIONS OF NORMAL AND TUMOR ...... ASSOCIATED MUCOPOLYSACCHARIDES
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P2093
P2860
P304
P356
10.1073/PNAS.50.4.613
P407
P577
1963-10-01T00:00:00Z