Τόμος 2 (1988) – Τεύχος 1 – Άρθρο 2 – Επιθεώρηση Κλινικής Φαρμακολογίας και Φαρμακοκινητικής-Διεθνής Έκδοση – Volume 2 (1988) – Issue 1 – Article 2 – Epitheorese Klinikes Farmakologias και Farmakokinetikes-International Edition

Sciences II, University de Geneve, Suisse

pharmakonpress[at]pharmakonpress[.]gr

2.         Sairam, M.R.: Protein glycosylation and receptor-ligand interactions. The Receptors 2: 307 (1985)

3.         Lennarz, E.J.:The biochemistry of glycoproteins and proteoglycans. Plenum Press, 1980

4.         Doolittle, R.: Les proteines. Pour la Science, 54 (D£c. 1985)

5.         Schmidt R.R.: New methods for the synthesis of glycosides and oligosaccharides. Are there alternatives to the Koenigs-Knorr method?/4njeiv. Chem. Int. Ed. Engl. 25: 212 (1986)

6.         Hakomori, S.-l.: Glycosphingolipids. Scientific American, 32 (Mai 1986)

7.         Tronchet, J.M.J., Jorand, C., Fasel, J.-P., Buchholzer, F.J. and Geoffroy, M.: Towards spin-labeled glycopeptide analogs. 3rd Eur. Sym. on Carbohydr., Grenoble, France, 1985

8.         Tronchet,         Baehler, B., Buchholzer, F.J., Koufaki, M., Jorand, C. and Geoffroy, M.: Spin-labeled analogs of glycopeptides, glycolipids and oligosaccharides derivatives. Int. Carbohydr. Sym. Xlllth, Ithaka, USA, 1986

9.         Lonn, H. and Lonngren, J.: Synthesis of a nona- and un- decasaccharide that form part of the complex type of carbohydrate moiety of glycoproteins. Carbohydr. Res. 120: 17 (1983}

10.       Ogawa, T., Kitajima, T. and Nukada, T.: Synthesis of a nonahexosyl unit of a complex type of glycan chain of a glycoprotein. Carbohydr. Res. 123: C8 (1983)

11.       Ogawa, T,, Nakabayashi, S. and Kitajima, T.: Synthesis of a hexasaccharide unit of a complex type of glycan chain of a glycoprotein. Carbohydr. Res. 114: 225 (1983)

12.       Paulsen, H. und Lebuhn, R.: Synthesevon Pentasaccharid- und Octasaccharidsequenzen der Kohlenhydrat-Kette von N-Glycoproteinen. Carbohydr. Res. 125: 21 (1984)

13.       Bencomo, V.V. and Sinay, P.: Synthesis of glycopeptide having clusters of O-glycosylic disaccharide chains (β-D- Gal-(1->3)-a-D-GalNAc) located at vicinal amino acid residues of the peptide chain. Carbohydr. Res. 116: C9 (1983)

14.       Cabaret, O., Kazandian, R. and Nakselman, M.: Synthesis of reducing dissaccharides bearing a lipophilic chain for the conjugation to proteins. 3rdEur. Sym. on Carbohydr., Grenoble, France, 1985

15.       Ogawa, T., Nukada, T. and Kitajima, T.: Synthesis of a linear, hexahexosyl unit of a high-man nose type of glycan chain of a glycoprotein. Carbohydr. Res. 123: Cl 2 (1983)

16.       Dahmen, J., Frejd, T., Magnusson, G., Noori, G. and Carlstrom, A.-S.: Synthesis of spacer-arm, lipid and ethyl glycosides of the terminal trisaccharide portion of the blood-group P1 antigen: preparation of neoglycoproteins. Carbohydr. Res. 129: 63 (1984)

17.       Dahmen, J., Frejd, T., Magnusson, G. and Carlstrom, A.-S.: Synthesis of spacer-arm, lipid, and ethyl glycosides of the trisaccharide protion of the blood-group Pk antigen: preparation of neoglycoproteins. Carbohydr. Res. 127:15 (1984)

18.       Dahmen, J., Frejd, T., Magnusson, G., Noori, G. and Carlstrom, A.-S.: Synthesis from pullulan of spacer-arm, lipid and ethyl glycosides of a tetrasaccharide found in human urine: preparation of neoglycoproteins. Carbohydr. Res. 127: 27 (1984)

19.       Dahmen, J., Frejd, T., Magnusson, G., Noori, G. and Carlstrom, A.-S.: 2-bromoethyl glycosides in glycoside synthesis: preparation of glycoproteins containing a-L- Fuc(1->2)-D-Gal and p-D-Gal(1->4)D-GlcNAc. Carbohydr. Res. 125: 237 (1984)

20.       Dahmen, J., Frejd, T„ Magnusson, G. and Noori, G.: Preparation and applications of 2-bromoethyl glycosides: synthesis of spacer-arm glycosides and agglutination inhibitors. Carbohydr. Res. 111: C1 (1982)

21.       Dahmen, J., Frejd, T„ Gronberg, G. and Lave, T.: 2-bro¬moethyl glycosides: applications in the synthesis of spacer-arm glycosides. Carbohydr. Res. 118: 292 (1983)

22.       Collins, P.M. and Eder, H.: Preparation of 3-methoxy- carbonyl-propyl α-D- and 7 methoxycarbonylhexyl β-D-galactopyranosides: spacer-arm glycosides for branched oligosaccharide synthesis. J. Chem. Soc. Perkin. Trans. 1: 1525 (1984)

23.       Lowry, O.H., Rosebrough, N.J., Farr, A.L. and Randall, R.J.: Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193: 265 (1951)

24.       Dubois, M., Gilles, K.A., Hamilton, J.K., Rebers, P.A. and Smith, F.: Colorimetric method for determination of sugar and related substances. Anal. Chem. 28: 350 (1956).

25.       Midoux, P., Roche, A.-C. and Monsigny, M.: Estimation of the degradation of endocytosed material by flow cytofluorometry using two neoglycoproteins containing different numbers of fluorescein molecules. Biol. Cell 58: 221 (1986)

26.       S&ve, A.-P., Hubert, J., Bouvier, D., Bourgeois, C., Midoux, P.. Roche, A.-C. and Monsigny, M.: Analysis of sugar-binding sites in mammalian cell nuclei by quantitative flow microfluorometry. Proc. Natl. Acad. Sci 83: 5997 (1986)

27.       Mencke, A.J. and Wold, F.: Preparation and in vivo clearance of serum albumin derivatives containing ovalbumin oligosaccharides. J. Biol. Chem. 257: 14799 (1982)

28.       Bogwald, J., Seljelid, R. and Hoffman, J.: Coupling of polysaccharides activated by means of chloroacetaldehyde dimethyl acetal to amines or proteins by reductive amination. Carbohydr. Res. 148: 101 (1986)

29.       Westphal, 0. und Feier, H.: Darstellung kiinstlicher Antigene mit determinanten Zuckergruppen. Chem. Ber. 89: 582 (1956)

30.       Belen ‘kit, D.M.: p-Aminophenyl-P-D-galactopyranoside as an antigenic determinant in neoglycoproteins. Molekulyarnaya Biologiya 17: 54 (1983)

31.       Lemieux, R.U.: Hayworth Memorial Lecture: human blood groups and carbohydrate chemistry. Chem. Soc. Rev. 7: 423 (1978)

32.       Lemieux, R.U., Baker, D.A. and Bundle, D.R.: A methodology for the production of carbohydrate-specific antibody. Can. J. Biochem. 55: 507 (1977)

33.       Schwartz, B.A. and Gray, G.R.: Proteins containing reductively aminated disaccharides. Synthesis and chemical characterization. Arch. Biochem. Biophys. 181: 542 (1977)

34.       Lee, R.T. and Lee, Y.C.: Preparation and some biochemical properties of neoglycoproteins produced by reductive amination of thioglycosides containing an ω-aldehydoaglycon. Biochemistry 19: 156 (1980)

35.       Lee, R.T. and Lee, Y.C.: Preparation of neoglycoproteins using ω-aldehydoalkyl 1-thioglycosides. Methods in Enzymology 83: 289 (1982)

36.       Lee, Y.C., Stowell, C.P. and Krantz, M.J.: 2-imino-2-methoxyethyll-thioglycosides: new reagents for attaching sugars to proteins. Biochemistry 15: 3956 (1976)

37.       Stowell, C.P. and Lee, Y.C.: Preparation of some new neoglycoproteins by amidination of bovine serum albumin using 2-imino-2-methoxyethyl 1-thioglycosides. Biochemistry 19: 4899 (1980)

38.       Stowell, C.P. and Lee, Y.C.: Preparation of neoglycoproteins using 2-imino-2-methoxyethyl 1-thioglycosides. Methods in Enzymology, 83: 278 (1982)

39.       McKelvy, J.F. and Lee, Y.C.: Microheterogeneity of the carbohydrate group of Aspergillus oryzae a-Amylase. Arch. Biochem. Biophys. 132: 99 (1969)

40.       Tronchet, J.M.J., Koufaki, M., Graf, J., Schoechlin, M., Zerelli, S., Kamatari, A., Buchholzer, F.J. and Geoffroy, M.: Novel nucleoside, glycopeptide and oligosaccharide spin labeled analogs. 4th Eur. Carbohydr. Symp. Darmstadt RFA. 1987

41.       Kawaguchi, Κ., Kuhlenschmidt, M., Roseman, S. and Lee, Y.C.: Differential uptake of D-galactosyl- and D-glucosyl-neoglycoproteins by isolated rat hepatocytes. J. Biol. Chem.. 256: 2230 (1981)

42.       Kuhlenschmidt, T.B. and Lee, Y.C.: Specificity of chicken liver carbohydrate binding protein. Biochemistry 23: 3569 (1984)

43.       Lee, R.T.: Binding site of the rabbit liver lectin specific for galactose-N-acetylgalactosamine. Biochemistry 21:1045 (1982)

44.       Stowell, C.P., Lee. R.T. and Lee, Y.C.: Studies on the specificity of rabbit hepatic carbohydrate-binding protein using neoglycoproteins. Biochemistry 19: 4904 (1980)

45.       Ki6da, C. and Monsigny, M.: The adhesion of mouse spleen cells to lymph node veinules involves endogenous membrane lectins (sugar receptors) of the lymphocytes. Intercell. Comm. Leucoc. Fund. 649 (1983)

46.       Kawaguchi, Κ., Kuhlenschmidt, M.( Roseman, S. and Lee, Y.C.: Synthesis of some cluster galactosides and their effect on the hepatic galactose-binding system. Arch. Biochem. Biophys. 205: 388 (1980)

47.       Hermentin, P., Neunztger, G.( Paulsen, H., Kolar, C„ Seiler, F.R., Dahr, W. and Enders, B.: Toxicity of hydrophobic groupings and the role of carbohydrates in Plasmodium falciparum infection. Behring Inst. Mitt. 80: 64 (1986)

48.       Connolly, D.T., Townsend, R.R., Kawaguchi, Κ., Bell, W.R. and Lee, Y.C.: Binding and endocytosis of cluster glycosides by rabbit hepatocytes. J. Bio! Chem. 257: 939 (1982)

49.       Hughes, R.C. and Sharon, N.: Carbohydrates recognized. Nature 274: 637 (1978)

50.       Medvedev, A.E., Gabrielyan, N.D., Bovin, N.V. and Khorlin, A.Ya.: Monospecific antibodies to an artificial T-anti- gen, the characterization of their specificity and their use for the identification of T-antigenic determinants on cell surfaces. Bioorg. Khim. 11: 908 (1985)

51.       Danielson, S.J. and Gray, G.R.: Immunochemical characterization of1 polylysine conjugates containing reductively aminated cellulose oligosaccharides. Glycoconjugate J. 3: 363 (1986)

52.       Hoppner, W., Fischer, K„ Poschmann, A. and Paulsen, H.: Use of synthetic antigens with the carbohydrate sturcture of asialoglycophorin A for specification of Thomsen-Friedenreich antibodies. Vox Sang 48: 246 (1985)

53.       Robbins, J.C., Lam, M.H., Tripp, C.S., Bugianesi, R.L., Ponpipom, M.M. and Shen, T.Y.: Synthetic glycopeptide substrates for receptor-mediated endocytosis of macrophages. Proc. Natl. Acad. Set. 78: 7294 (1981)

54.       Konish, M., Shepherd, V., Holt, G. and Stahl, P.: Uptake of glycoproteins and glycoconjugates by macrophages. Methods in Enzymology 98: 301 (1983)

55.       Lehrman, M.A., Haltiwanger, R.S. and Hill, R.L.: The binding of fucosecontaining glycoproteins by hepatic lectins. J. Biol. Chem. 261: 7426 (1986)

56.       Shepherd, V.L., Lee, Y.C., Schlesinger, P.H. and Stahl, P.D.: L-fucose-terminated glycoconjugates are recognized by pinocytosis receptors on macrophages. Proc. Natl. Acad. Sci. 78: 1019 (1981)

57.       Connoly, D.T., Townsend, R.R., Kawaguchi, Κ., Hobish, M.K., Bell, W.R. and Lee, Y.C.: Binding and endocytosis of glycoproteins and neoglycoproteins by isolated rabbit hepatocytes. Biochem. J. 214: 421 (1983)

58.       Lehrman, M.A., Pizzo, S.V., Imber, M.J. and Hill, R.L.: The binding of fucose-containing glycoproteins by hepatic lectins. J. Biol. Chem. 261: 7412 (1986)

59.       Kuhlenschmidt, T.B., Kuhlenschmidt, M.S., Roseman, S. and Lee, Y.C.: Binding and endocytosis of glycoproteins by isolated chicken. Biochemistry 23: 6437 (1984)

60.       Debray, H. and Montreuil, J.: Affinity of four immobilized Erythrina lectins toward various N-linked glycopeptides and related oligosaccharides. Carbohydr. Res. 151: 359 (1986)

61.       Hooghe, R.J., Meeren, M.V., Plaetse, F.V. and Greimers, R.: Experimental modification of Ν-linked sugars of membrane proteins in a lymphoma cell line affects the binding of soybean agglutinin but not of several other lectins. Carbohydr. Res. 141: 172 (1985)

62.       Kaifu, R., Plantefaber, L.C. and Goldstein, I.J.: 2-substituted methyl α-D-galactopyranosrdes: synthesis and binding affinity for the A and B subunits of the Griffonia simplicifolia I isolectins. Carbohydr. Res. 140: 37 (1985)

63.       Barondes, S.H.: Lectins: their multiple endogenous cellular functions. Ann. Rev. Biochem. 50: 207 (1981)

64.       Lis, H. and Sharon, N.: Lectins as models and as tools. Ann. Rev. Biochem. 55: 35 (1986)

65.       Monsigny, M., Ki6da, C. and Roche, A.-C.: Membrane lectins. Biol. Cell. 36: 289 (1979)

66.       Bog-Hansen, T.C.: LECTINS – Biology – Biochemistry – Clinical biochemistry, 1981

67.       Goldstein, I.J., Reichert, C.M. and Misaki, A.: Interaction of concanavalin A with model substrates. Adv. Carbo- hydr. Chem. Biochem. 35: 283 (1978)

68.       Tronchet, J.M.J.: Contribution £ I’^tudede la phytoagglutinine aspecifique des graines de Pisum sativum. I.- Etude 6lectrophor£trque. Bull. Soc. Hist. Nat. Doubs 63: 45 (1961)

69.       Tronchet,         Contribution i I ‘6tudede la phytoagglutinine aspecifique des graines de Pisum sativum. II.- Activite inhibitrice de certains sucres et glycoproteides. Bull. Soc. Hist. Nat. Doubs 63: 49 (1961)

70.       Tronchet, J.MiJ.: Les phytoagglutinines des Angiospermes. Aspects actuels de la question. Ann. Sc. Univ. BesanQon II Botanique 17: 89 (1961)

71.       Haltiwanger R.S., Lehrman, M.A., Eckhardt, A.E. and Hill, R.L.: The distribution and localization of the fucose-binding lectin in rat tissues and the identification of a high affinity form of the mannose/N-acetylglucosamine-binding lectin in rat liver. J. Biol. Chem. 261: 7433 (1986)

72.       Gabius, H.-J., Engelhardt, R., Cramer, F., Batge, R. and Nagel, G.A.: Pattern of endogenous lectins in a human epithelial tumor. Cancer Res. 45: 253 (1985)

73.       Monsigny, M., Kidda, C. et Roche, A.-C.: Des lectines endogenes dans la reconnaissance cellulaire. Colloque de l’INSERM/CNFIS 126: 357 (1984)

74.       Hubert, J., S6ve, A.-P., Bouvier, D., Masson, C., Bouteille, M. and Monsigny, M.: In situ ultrastructural localization of sugar-binding sites in Lizard Granulosa cell nuclei. Biol. Cell 55: 15 (1985)

75.       Seve, A.P., Hubert, J., Bouvier, D., Bouteille, M.,Maintier, C. and Monsigny, M.: Detection of sugar-binding proteins in membrane-depleted nuclei. Experim. Cell Res. 157: 533 (1985)

76.       Perry, A., Keisari, Y. and Ofek, I.: Liver cell and macrophage surface lectins as determinants of recognition in blood clearance and cellular attachment of bacteria. FEMS Microbiology Letters. 27: 345 (1985)

77.       Imber, M.J., Pizzo, S.V., Johnson, W.J. and Adams, D.O.: Selective diminution of the binding of mannose by murine macrophages in the late stages of activation. J. Biol. Chem. 257: 5129 (1982)

78.       Largent, B.L., Walton, K.M., Hoppe, C.A., Lee, Y.C. and Schnaar, R.L.: Carbohydrage-specific adhesion of alveolar macrophages to mannose-derivatized surfaces. J. Biol Chem. 259: 1764 (1984)

79.       Stahl, P.D., Rodman, J.S., Miller, M.J. and Schlesinger, P.H.: Evidence for receptor-mediated binding of glycoproteins, glycoconjugates and lysosomal glycosidases by alveolar macrophages. Proc. Natl. Acad. Sci. USA 75: 1399 (1978)

80.       Weiel, J.E. and Pizzo, S.V.: Down regulation of macrophage mannose/N-acetylglucosamine receptors by elevated glucose concentrations. Biochim. Biophys. Acta 759: 170 (1983)

81.       Stahl, P., Schlesinger, P.H., Sigardson, E., Rodman, J.S. and Lee, Y.C.: Receptor mediated pinocytosisof mannose glycoconjugates by macrophages: characterization and evidence for receptor recycling. Cell 19: 207 (1980)

82.       Hoppe, C.A. and Lee, Y.C.: Accumulation of a nondegradable mannose ligand within rabbit alveolar macrophages. Receptor reutilization is independent of ligand degradation. Biochemistry 23: 1723 (1984)

83.       Sahgian, G.G.: The mannose 6-phosphate receptor: function, biosynthesis and translocation. Biol. Cell 51: 207 (1984)

84.       Roche, A.-C., Midoux, P., Bouchard, P. and Monsigny, M.: Membrane lectins on human monocytes. Maturation-dependent modulation of 6-phosphomannose and mannose receptors. FEBS LETTERS 193: 63 (1985)

85.       Kean, E.L., Hara, S. and Lentrichia, B.B.: Binding of neoglycoproteins by the chick pigment epithelial cell in culture. Vision Res. 21: 133 (1981)

86.       Monsigny, M„ Roche, A.-C. and Midoux, P.: Uptake of neoglycoproteins via membrane lectin(s) of L1210 cells evidence by quantitative flow cytofluorometry and drug targeting. Biol. Cell 51: 187 (1984)

87.       Imamura, T., Toyoshima, S. and Osawa, T.: Lectin-like molecules on the murine macrophage cell surface. Biochim. Biophys. Acta 805: 235 (1984)

88.       Gabius, H.-J.: Membrane lectins in human malignant melanoma. Naturwissenschaften 74: 37 (1987)

89.       Roche, A.C., Barzilay, M., Midoux, P., Junqua, S., Sharon, N. and Monsigny, M.: Sugar-specific endocytosis of glycoproteins by Lewis lung carcinoma cells. J. Celt. Biochem. 22: 131 (1983)

90.       Ki£da, C. and Monsigny, M.: Involvement of membrane sugar receptors and membrane glycoconjugates in the adhesion of 3LL cell subpopulations to cultured pulmonary cells. Invasion Metastasis 6: 347 (1986)

91.       Monsigny, M., Roche, A.-C. and Bailly, P.: Tumoricidal activation of murine alveolar macrophages by muramyl-dipeptide substituted mannosylated serum albumin. Biochem. Biophys. Res. Commun. 121: 579 (1984)

92.       Monsigny, M., Kiida, C. and Roche, A.-C.: Membrane glycoproteins, glycolipids and membrane lectins as recognition signals in normal and malignant cells. Biol. Cell 47: 95 (1979)

93.       Fiume, L., Bassi, B., Busi, C., Mattioli, A. and Spinosa, G.: Drug targeting in antiviral chemotherapy. Chem. Pharmacol. 35: 967 (1986)

94.       Fiume, L., Mattioli, A., Busi, C. and Accorsi, C.: Selective penetration and pharmacological activity of lactosaminated albumin conjugates of adenine arabinoside 5-monophosphate (ara-AMP) in mouse liver. Gut 25: 1392 (1984)

95.       Rolin-Van Swieten, D., Schneider, Y.-J., Lesur, B., Bau- rain, R. and Trouet, A.: Daunorubicin conjugated to galactosylated neoglycoprotein as drug carrier conjugate for human hepatomas. B.l. Immunotoxins, 433 (1985)

96.       Roche, A.-C., Bailly, P. and Monsigny, M.: Macrophage activation by MDP bound to neoglycoproteins: metastasis eradication in mice. Invasion Metastasis 5: 218 (1985)

97.       Monsigny, M. et Roche, A.-C.: Nouveaux derives immunostimulants, leur preparation et leur application comme medicament. Europ. Pat. Appl. EP 128097 At. 1 (1984)

98.       Tenu, J.-P., Roche, A.-C., Yapo, A., Kigda, C., Monsigny, M. and Petit, J.-F.: Absence of cell surface receptors for muramylpeptides in mouse peritoneal macrophages. Biol. Cell 44: 157 (1982)

99.       Krohn, K.A., Vera, D.R. and Stadalnik, R.C.: Radiolabeled neoglycopeptides. U.S. Patent, 1983

100.     Schulman, S., Lee, Y.C. and Vanderberg, J.P.: Effects of neoglycoproteins on penetration of Plasmodium falciparum merozoites into erythrocytes in vitro. J. Parasit. 70: 213 (1984)

101.     Hadley, T.J., Erkmen, Z., Kaufman, B.M., Futrovsky, S., McGuinnis, M.H: Graves, P., Sadoff, J.C. and Miller, L.H.: Factors influencing invasion of erythrocytes by Plasmodium falciparum parasites: the effects of an N-acetylglucosamine neoglycoprotein and an anti-glycophorin A antibody. Am. J. Trop. Med. Hyg. 35: 898 (1986)

102.     Schrevel, J., Philippe, M., Bernard, F. and Monsigny, M.: Surface Plasmodium sugar-binding components evidence by fluorescent neoglycoproteins. Biol. Cell 56: 49 (1986)

103.     Singh, B., Monsigny, M. and Hommel, M.: Amino-sugars inhibit the in vitro cytoadherence of Plasmodium falciparum-infected erythrocytes to melanoma cells. Mot. Biochem. Parasit. 23: 47 (1987)

104.     Wilson, M.E. and Pearson, R.D.: Evidence that Leishmania donovani utilizes a mannose receptor on human mononuclear phagocytes to establish intracellular parasitism. J. Immun. 136: 4681 (1986)

105.     Townsend, R. and Stahl, P.: Isolation and characterization of a mannosQlM-acetylglucosamine fucose-binding protein from rat liver. Biochem. J. 194: 209 (1981)

106.     Schlesiner, P.H., Rodman, J.S., Doebber, T.W., Stahl, P.D., Lee, Y.C., Stowell, C.P. and Kuhlenschmidt, T.B.: The role of extra-hepatic tissues in the receptor-mediated plasma clearance of glycoproteins terminated by mannose or N-acetylglucosamine. Biochem. J. 192: 597 (1980)

107.     Lee, R.T., Myers, R.W. and Lee, Y.C.: Further studies on the binding characteristics of rabbit liver galactose/N-acetylgalactosamine-specifrc lectin. Biochemistry 21: 6292 (1982)

108.     Stowell, C.P. and Lee, Y.C.: The binding of D-glucosyl, Biol. Chem. 253: 6107 (1978)

109.     Krantz, M.J., Holtzman, N.A., Stowell, C.P. and Lee, Y.C.: Attachment of thioglycosides to proteins: enhancement of liver membrane binding. Biochemistry 15: 3963(1976)

110.     Ashwell, G. and Harford, J.: Carbohydrate specific receptors of the Jiver. Ann. Rev. Biochem. 51: 531 (1982)

111.     Wileman, T.E., Lennartz, M.R. and Stahl, P.D.: Identification of the macrophage mannose receptor as a 175-kDa membrane protein. Proc. Natl. Acad. Sci. 83: 2501 (1986)

112.     Kataoka, M. and Tavassoli, M.: Synthetic neoglycoproteins: a class of reagents for detection of sugar-recognizing substances. J. Histochem. Cytochem. 32: 1091 (1985)

113.     Gemeiner, P. and Viskupic, E.: Stepwise immobilization of proteins via their glycosylation. J. Biochem. Biophys. Meth. 4: 309 (1981)

114.     Gemeiner P. and Zemek J.: Thiol derivatives of cellulose as supports for the immobilization of non-thiol enzymes. Coll. Czech. Chem. Commun. 46: 1693 (1981)

115.     Kataoka, M. and Tavassoli, M.: Identification of lectin-like substances recognizing galactosyl residues of glycoconjugates on the plasma membrane of marrow sinus endothelium. Blood 5: 1163 (1985)

116.     Bohringer, R. and Holden, D.W.: Protein plotting: detection of proteins with colloidal gold, and of glycoproteiris and lectins with biotin-conjugated and enzyme probes. Analyt. Biochem. 144: 118 (1985)

117.     Gnewuch, T. and Sosnovsky, G.: Spin-labeled carbohydrates. Chem. Rev. 86: 203 (1986)

pharmakonpress[at]pharmakonpress[.]gr

pharmakonpress[at]pharmakonpress[.]gr