The Surface Membrane of Leishmania

[1]  D. Bradley,et al.  Leishmania donovani: action of excreted factor on hydrolytic enzyme activity of macrophages from mice with genetically different resistance to infection. , 1980, Experimental parasitology.

[2]  K. Dawidowicz,et al.  A new method for the partial purification of leishmania amastigotes from cutaneous lesions , 1980, Parasitology.

[3]  C. Greenblatt,et al.  Production and secretion of Leishmania braziliensis proteins. , 1980, Molecular and biochemical parasitology.

[4]  C. Greenblatt,et al.  Leishmania donovani: physicochemical, immunological, and biological characterization of excreted factor from promastigotes. , 1979, Experimental parasitology.

[5]  C. Greenblatt,et al.  Analysis by SDS-polyacrylamide gel electrophoresis of an immunologically active factor of Leishmania tropica from growth media, promastigotes, and infected macrophages. , 1979, Biochemical medicine.

[6]  M. Carnevali,et al.  A new species of Leishmania parasite from the Venezuelan Andes region. , 1979, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[7]  B. Honigberg,et al.  Glycoproteins released by Leishmania donovani: immunologic relationships with host and bacterial antigens and preliminary biochemical analysis. , 1978, The Journal of protozoology.

[8]  M. Gottlieb Trypanosoma cruzi: identification of a cell surface polysaccharide. , 1978, Experimental parasitology.

[9]  Chang Kp,et al.  Leishmania donovani. Hamster macrophage interactions in vitro: cell entry, intracellular survival, and multiplication of amastigotes. , 1978 .

[10]  D. H. Lewis,et al.  The resistance of intracellular Leishmania parasites to digestion by lysosomal enzymes. , 1977, Annals of tropical medicine and parasitology.

[11]  L. Schnur,et al.  Leishmanial excreted factor (EF) serotypes in Sudan, Kenya and Ethiopia. , 1977, Annals of tropical medicine and parasitology.

[12]  C. Greenblatt,et al.  Isolation of a carbohydrate‐rich immunologically active factor from cultures of Leishmania tropica , 1977, FEBS letters.

[13]  D. Dwyer,et al.  Leishmania donovani: surface membrane carbohydrates of promastigotes. , 1977, Experimental parasitology.

[14]  B. Veress,et al.  Morphology of the spleen and lymph nodes in fatal visceral leishmaniasis. , 1977, Immunology.

[15]  F. Doljanski,et al.  Cell surface shedding--the phenomenon and its possible significance. , 1976, Journal of theoretical biology.

[16]  J. Hartwig Cytochalasin B Dissolves Macrophage Extracts Actin Gels but does not Depolymerize Actin Filaments , 2003 .

[17]  N. Mitchell,et al.  Simultaneous localization of proteoglycan by light and electron microscopy using toluidine blue O. A study of epiphyseal cartilage. , 1976, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[18]  C. Greenblatt,et al.  Morphology and the differentiation of leishmanias. , 1976, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[19]  J. Convit,et al.  The surface membrane of Leishmania. I. The effects of lectins on different stages of Leishmania braziliensis. , 1975, The Journal of parasitology.

[20]  K. Jacobson,et al.  Effects of local anesthetics on membrane properties. II. Enhancement of the susceptibility of mammalian cells to agglutination by plant lectins. , 1975, Biochimica et biophysica acta.

[21]  I. Kaneko,et al.  A quantitative assay for concanavalin A- and Ricinus communis agglutinin-mediated agglutinations of rat ascites hepatoma cells. Relationship between concanavalin A binding and cell agglutination. , 1975, Biochimica et biophysica acta.

[22]  E. Lazarides,et al.  Localization and distribution of actin fibers in normal transformed and revertant cells. , 1975, Cold Spring Harbor symposia on quantitative biology.

[23]  D. Rowe,et al.  ANTIBODY-INDUCED MOVEMENT OF MEMBRANE COMPONENTS OF LEISHMANIA ENRIETTII , 1974, The Journal of experimental medicine.

[24]  D. Dwyer Lectin Binding Saccharides on a Parasitic Protozoan , 1974, Science.

[25]  M. Karnovsky,et al.  EFFECTS OF COLCHICINE, CYTOCHALASIN B, AND 2-DEOXYGLUCOSE ON THE TOPOGRAPHICAL ORGANIZATION OF SURFACE-BOUND CONCANAVALIN A IN NORMAL AND TRANSFORMED FIBROBLASTS , 1974, The Journal of cell biology.

[26]  H. Rittenhouse,et al.  Concanavalin A mediated hemagglutination and binding properties of LM cells. , 1974, Biochemical and biophysical research communications.

[27]  R. Burns 3H-colchicine binding , 1973 .

[28]  G. Nicolson,et al.  Temperature-dependent mobility of concanavalin A sites on tumour cell surfaces. , 1973, Nature: New biology.

[29]  M. Edidin,et al.  FLUIDITY OF THE SURFACE OF CULTURED MUSCLE FIBERS , 1973, The Journal of cell biology.

[30]  A. Hubbard,et al.  THE ENZYMATIC IODINATION OF THE RED CELL MEMBRANE , 1972, The Journal of cell biology.

[31]  A. Weiss,et al.  Antigen cap formation in cultured fibroblasts: a reflection of membrane fluidity and of cell motility. , 1972, Proceedings of the National Academy of Sciences of the United States of America.

[32]  L. Goldstein,et al.  Use of cationized ferritin as a label of negative charges on cell surfaces. , 1972, Journal of ultrastructure research.

[33]  R. Goldman THE ROLE OF THREE CYTOPLASMIC FIBERS IN BHK-21 CELL MOTILITY , 1971, The Journal of cell biology.

[34]  N. K. Wessells,et al.  Microfilaments in Cellular and Developmental Processes , 1971, Science.

[35]  S. Avrameas,et al.  Ultrastructural visualization of cellular carbohydrate components by means of concanavalin A. , 1971, Experimental cell research.