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  1. Zrachya, A., et al., Production of siRNA targeted against TYLCV coat protein transcripts leads to silencing of its expression and resistance to the virus. Transgenic Res, 2006.
  2. Kass, G., et al., Permeabilized mammalian cells as an experimental system for nuclear import of geminiviral karyophilic proteins and of synthetic peptides derived from their nuclear localization signal regions. J Gen Virol, 2006. 87(Pt 9): p. 2709-20.
  3. Rosenbluh, J. et al. (2006) Positively charged peptides can interact with each other, as revealed by solid phase binding assays. Anal Biochem 352 (2), 157-168
  4. Salman, H. et al. (2005) Nuclear localization signal peptides induce molecular delivery along microtubules. Biophys J 89 (3), 2134-2145
  5. Rosenbluh, J. et al. (2005) Translocation of histone proteins across lipid bilayers and Mycoplasma membranes. J Mol Biol 345 (2), 387-400
  6. Loyter, A. et al. (2005) The plant VirE2 interacting protein 1. a molecular link between the Agrobacterium T-complex and the host cell chromatin? Plant Physiol 138 (3), 1318-1321
  7. Krichevsky, A. et al. (2005) The fd phage and a peptide derived from its p8 coat protein interact with the HIV-1 Tat-NLS and inhibit its biological functions. Antiviral Res 66 (1), 67-78
  8. Hariton-Gazal, E. et al. (2005) Functional analysis of backbone cyclic peptides bearing the arm domain of the HIV-1 Rev protein: characterization of the karyophilic properties and inhibition of Rev-induced gene expression. Biochemistry 44 (34), 11555-11566
  9. Rosenbluh, J. et al. (2004) Non-endocytic penetration of core histones into petunia protoplasts and cultured cells: a novel mechanism for the introduction of macromolecules into plant cells. Biochim Biophys Acta 1664 (2), 230-240
  10. Citovsky, V. et al. (2004) Protein interactions involved in nuclear import of the Agrobacterium VirE2 protein in vivo and in vitro. J Biol Chem 279 (28), 29528-29533
  11. Armon-Omer, A. et al. (2004) A synthetic peptide bearing the HIV-1 integrase 161-173 amino acid residues mediates active nuclear import and binding to importin alpha: characterization of a functional nuclear localization signal. J Mol Biol 336 (5), 1117-1128
  12. Krichevsky, A. et al. (2003) Antibody fragments selected by phage display against the nuclear localization signal of the HIV-1 Vpr protein inhibit nuclear import in permeabilized and intact cultured cells. Virology 305 (1), 77-92
  13.  Hariton-Gazal, E. et al. (2003) Direct translocation of histone molecules across cell membranes. J Cell Sci 116 (Pt 22), 4577-4586
  14. Fineberg, K. et al. (2003) Inhibition of nuclear import mediated by the Rev-arginine rich motif by RNA molecules. Biochemistry 42 (9), 2625-2633
  15. Hariton-Gazal, E. et al. (2002) Inhibition of nuclear import by backbone cyclic peptidomimetics derived from the HIV-1 MA NLS sequence. Biochim Biophys Acta 1594 (2), 234-242
  16. Hariton-Gazal, E. et al. (2002) Targeting of nonkaryophilic cell-permeable peptides into the nuclei of intact cells by covalently attached nuclear localization signals. Biochemistry 41 (29), 9208-9214
  17. Fridkin, G. et al. (2001) Systematic solid-phase synthesis of linear pseudooligolysines containing multiple adjacent CH(2)NH amide bond surrogates: potential agents for gene delivery. J Pept Res 58 (1), 36-44
  18. Friedler, A. et al. (2000) Development of a functional backbone cyclic mimetic of the HIV-1 Tat arginine-rich motif. J Biol Chem 275 (31), 23783-23789
  19. Friedler, A. et al. (1999) Identification of a nuclear transport inhibitory signal (NTIS) in the basic domain of HIV-1 Vif protein. J Mol Biol 289 (3), 431-437
  20. Karni, O. et al. (1998) A peptide derived from the N-terminal region of HIV-1 Vpr promotes nuclear import in permeabilized cells: elucidation of the NLS region of the Vpr. FEBS Lett 429 (3), 421-425
  21. Friedler, A. et al. (1998) Backbone cyclic peptide, which mimics the nuclear localization signal of human immunodeficiency virus type 1 matrix protein, inhibits nuclear import and virus production in nondividing cells. Biochemistry 37 (16), 5616-5622
  22. Broder, Y.C. et al. (1997) Translocation of NLS-BSA conjugates into nuclei of permeabilized mammalian cells can be supported by protoplast extract. An experimental system for studying plant cytosolic factors involved in nuclear import. FEBS Lett 412 (3), 535-539
  23. Nussbaum, O. and Loyter, A. (1995) Interaction of reconstituted Sendai viral envelopes with sperm cells: reconstituted Sendai virus envelope-induced fusion-mediated introduction of foreign material into bull sperm cells. Arch Virol 140 (9), 1613-1622
  24. Zakai, N. et al. (1993) Transient gene expression of foreign genes in preheated protoplasts: stimulation of expression of transfected genes lacking heat shock elements. Plant Mol Biol 21 (5), 823-834
  25. Nussbaum, O. et al. (1993) Fusion of enveloped viruses with sperm cells: interaction of Sendai, influenza, and Semliki Forest viruses with bull spermatozoa. Exp Cell Res 206 (1), 11-15
  26. Reiter, Z. et al. (1992) An inducer of NKCF (NK cytotoxic factor) release: localization on target-cell membrane and initial characterization. Cell Immunol 142 (2), 370-384
  27. Nussbaum, O. et al. (1992) Fusion of influenza virus particles with liposomes: requirement for cholesterol and virus receptors to allow fusion with and lysis of neutral but not of negatively charged liposomes. J Gen Virol 73 ( Pt 11), 2831-2837
  28. Reiter, Z. et al. (1991) Resistance to NK cell-mediated cytotoxicity (in K-562 cells) does not correlate with class I MHC antigen levels. Immunobiology 183, 23-39
  29. Broido, S. et al. (1991) Expression of plant genes in transfected mammalian cells: accumulation of recombinant preLHCIIb proteins within cytoplasmic inclusion bodies. Exp Cell Res 192 (1), 248-255
  30. Blumenthal, R. and Loyter, A. (1991) Reconstituted viral envelopes--'Trojan horses' for drug delivery and gene therapy? Trends Biotechnol 9 (2), 41-45
  31. Abramovitz, B. et al. (1991) Induction of serotonin release from mast cells by lymphocyte activators is dependent upon implantation of lymphocyte plasma membrane components. Exp Cell Res 194 (2), 228-231
  32. Zenvirth, D. et al. (1990) Externally added DNA molecules support initiation of transcription in isolated nuclei from petunia. FEBS Lett 263 (1), 142-146
  33. Lapidot, M. and Loyter, A. (1990) Fusion-mediated microinjection of liposome-enclosed DNA into cultured cells with the aid of influenza virus glycoproteins. Exp Cell Res 189 (2), 241-246
  34. Hershkovitz, M. et al. (1990) Effect of CpG methylation on gene expression in transfected plant protoplasts. Gene 94 (2), 189-193
  35. Citovsky, V. et al. (1990) Involvement of osmotic forces in fusion of enveloped viruses with intact human erythrocytes: studies with Sendai and influenza virus particles. Prog Clin Biol Res 343, 133-145
  36. Ran, S. et al. (1989) Implanted IgE-Fc epsilon R complexes elicit IgE-mediated activation of RBL-2H cells. Biochemistry 28 (2), 644-651
  37. Loyter, A. et al. (1989) Implantation of isolated carriers and receptors into living cells by Sendai virus envelope-mediated fusion. Methods Enzymol 171, 829-850
  38. Lapidot, M. and Loyter, A. (1989) Fusogenic properties of reconstituted hybrid vesicles containing Sendai and influenza envelope glycoproteins: fluorescence dequenching and fluorescence microscopy studies. Biochim Biophys Acta 980 (3), 281-290
  39. Keren-Zur, M. et al. (1989) Induction of fusion in aggregated and nonaggregated liposomes bearing cationic detergents. Biochim Biophys Acta 983 (2), 253-258
  40. Ballas, N. et al. (1989) Efficient functioning of plant promoters and poly(A) sites in Xenopus oocytes. Nucleic Acids Res 17 (19), 7891-7903
  41. Sinangil, F. et al. (1988) Quantitative measurement of fusion between human immunodeficiency virus and cultured cells using membrane fluorescence dequenching. FEBS Lett 239 88-92
  42. Ran, S. et al. (1988) Reconstitution of fusogenic Sendai virus envelopes by the use of the detergent chaps. Arch Biochem Biophys 261 (2), 437-446
  43. Loyter, A. et al. (1988) The use of fluorescence dequenching measurements to follow viral membrane fusion events. Methods Biochem Anal 33, 129-164
  44. Citovsky, V. et al. (1988) Animal viruses are able to fuse with prokaryotic cells. Fusion between Sendai or influenza virions and Mycoplasma. J Biol Chem 263 (1), 461-467
  45. Chejanovsky, N. et al. (1988) Fusion of enveloped viruses with biological membranes. Fluorescence dequenching studies. Subcell Biochem 13, 415-456
  46. Beigel, M. et al. (1988) Poly(aspartic acid)-dependent fusion of liposomes bearing the quaternary ammonium detergent [[[(1,1,3,3-tetramethylbutyl)cresoxy]ethoxy]ethyl] dimethylbenzylammonium hydroxide. Biochemistry 27 (2), 660-666
  47. Nussbaum, O. et al. (1987) Reconstitution of functional influenza virus envelopes and fusion with membranes and liposomes lacking virus receptors. J Virol 61 (7), 2245-2252
  48. Nussbaum, O. and Loyter, A. (1987) Quantitative determination of virus-membrane fusion events. Fusion of influenza virions with plasma membranes and membranes of endocytic vesicles in living cultured cells. FEBS Lett 221 (1), 61-67
  49. Lapidot, M. et al. (1987) Fusion of membrane vesicles bearing only the influenza hemagglutinin with erythrocytes, living cultured cells, and liposomes. J Biol Chem 262 (28), 13736-13741
  50. Citovsky, V. et al. (1987) Osmotic swelling allows fusion of sendai virions with membranes of desialyzed erythrocytes and chromaffin granules. Biochemistry 26 (13), 3856-3864
  51. Ballas, N. et al. (1987) Transient expression of the plasmid pCaMVCAT in plant protoplasts following transformation with polyethyleneglycol. Exp Cell Res 170 (1), 228-234
  52. Bachrach, U. et al. (1987) Fusion-mediated microinjection of active amine and diamine oxidases into cultured cells: effect on protein and DNA synthesis in chick embryo fibroblasts and in glioma cells. J Cell Physiol 131 (1), 92-98
  53. Gershoni, J.M. et al. (1986) Protein blot analysis of virus receptors: identification and characterization of the Sendai virus receptor. Biochim Biophys Acta 856 (1), 19-26
  54. Citovsky, V. et al. (1986) The use of circular dichroism to study conformational changes induced in Sendai virus envelope glycoproteins. A correlation with the viral fusogenic activity. J Biol Chem 261 (5), 2235-2239
  55. Citovsky, V. et al. (1986) Active function of membrane receptors for enveloped viruses. I. Specific requirement for liposome-associated sialoglycolipids, but not sialoglycoproteins, to allow lysis of phospholipid vesicles by reconstituted Sendai viral envelopes. Exp Cell Res 166 (2), 279-294
  56. Chejanovsky, N. et al. (1986) Fusion of fluorescently labeled Sendai virus envelopes with living cultured cells as monitored by fluorescence dequenching. Exp Cell Res 164 (2), 353-365
  57. Chejanovsky, N. et al. (1986) Membrane vesicles containing the Sendai virus binding glycoprotein, but not the viral fusion protein, fuse with phosphatidylserine liposomes at low pH. Biochemistry 25 (17), 4810-4817
  58. Arad, G. et al. (1986) Use of reconstituted Sendai virus envelopes for fusion-mediated microinjection of double-stranded RNA: inhibition of protein synthesis in interferon-treated cells. Biochim Biophys Acta 859 (1), 88-94
  59. Amselem, S. et al. (1986) Fusion of Sendai virus with negatively charged liposomes as studied by pyrene-labelled phospholipid liposomes. Biochim Biophys Acta 860 (2), 301-313
  60. Henis, Y.I. et al. (1985) Sendai virus envelope glycoproteins become laterally mobile on the surface of human erythrocytes following fusion. Exp Cell Res 160 (2), 514-526
  61. Gitman, A.G. et al. (1985) Use of virus-attached antibodies or insulin molecules to mediate fusion between Sendai virus envelopes and neuraminidase-treated cells. Biochemistry 24 (11), 2762-2768
  62. Gitman, A.G. et al. (1985) Targeting of loaded Sendai virus envelopes by covalently attached insulin molecules to virus receptor-depleted cells: fusion-mediated microinjection of ricin A and simian virus 40 DNA. Proc Natl Acad Sci U S A 82 (21), 7309-7313
  63. Citovsky, V. and Loyter, A. (1985) Fusion of Sendai virions or reconstituted Sendai virus envelopes with liposomes or erythrocyte membranes lacking virus receptors. J Biol Chem 260 (22), 12072-12077
  64. Citovsky, V. et al. (1985) Fusion of Sendai virions with phosphatidylcholine-cholesterol liposomes reflects the viral activity required for fusion with biological membranes. FEBS Lett 193 (2), 135-140
  65. Chejanovsky, N. et al. (1985) Affinity targeting of Sendai virions to desialized human erythrocytes using hybrid antibody molecules. Biochim Biophys Acta 812 (2), 353-360
  66. Chejanovsky, N. and Loyter, A. (1985) Fusion between Sendai virus envelopes and biological membranes. The use of fluorescent probes for quantitative estimation of virus-membrane fusion. J Biol Chem 260 (13), 7911-7918
  67. Amselem, S. et al. (1985) The interaction of Sendai virus with negatively charged liposomes: virus-induced lysis of carboxyfluorescein-loaded small unilamellar vesicles. Biochim Biophys Acta 820 (1), 1-10
  68. Vainstein, A. et al. (1984) A new method for reconstitution of highly fusogenic Sendai virus envelopes. Biochim Biophys Acta 773 (2), 181-188
  69. Nussbaum, O. et al. (1984) Membrane-bound antiviral antibodies as receptors for Sendai virions in receptor-depleted erythrocytes. Virology 138 (2), 185-197
  70. Loyter, A. et al. (1984) The use of specific antibodies to mediate fusion between Sendai virus envelopes and living cells. Ciba Found Symp 103, 163-180
  71. Gitman, A.G. and Loyter, A. (1984) Construction of fusogenic vesicles bearing specific antibodies. Targeting of reconstituted Sendai virus envelopes towards neuraminidase-treated human erythrocytes. J Biol Chem 259 (15), 9813-9820
  72. Chejanovsky, N. et al. (1984) Attachment of Sendai virus particles to cell membranes: dissociation of adsorbed virus particles with dithiothreitol. J Virol 49 (3), 1009-1013
  73. Chejanovsky, N. et al. (1984) Fusion between Sendai virus envelopes and biological membranes as monitored by energy transfer methods. FEBS Lett 174 (2), 304-309
  74. Vainstein, A. et al. (1983) Fusogenic reconstituted Sendai virus envelopes as a vehicle for introducing DNA into viable mammalian cells. Methods Enzymol 101, 492-512
  75. Mazurek, N. et al. (1983) Restoration of Ca2+ influx and degranulation capacity of variant RBL-2H3 cells upon implantation of isolated cromolyn binding protein. Proc Natl Acad Sci U S A 80 (19), 6014-6018
  76. Loyter, A. et al. (1983) Fusion-mediated injection of SV40-DNA. Introduction of SV40-DNA into tissue culture cells by the use of DNA-loaded reconstituted Sendai virus envelopes. Exp Cell Res 143 (2), 415-425
  77. Israel, S. et al. (1983) A possible involvement of virus-associated protease in the fusion of Sendai virus envelopes with human erythrocytes. Biochim Biophys Acta 732 (2), 337-346
  78. Beigel, M. and Loyter, A. (1983) Fusion-mediated implantation of band 3 into living cells. A new system to study degradation of membrane proteins. Exp Cell Res 148 (1), 95-103
  79. Tomasi, M. et al. (1982) Conjugation of specific antibodies to Sendai virus particles: a new tool for targeting of fusogenic vesicles. FEBS Lett 143 (2), 253-256
  80. Loyter, A. and Beigel, M. (1982) Sendai virus envelope as a carrier for transferring membrane proteins: a quantitative estimation of virus-cell adsorption and fusion. Prog Clin Biol Res 102 pt A, 337-345
  81. Loyter, A. et al. (1982) Mechanisms of DNA uptake by mammalian cells: fate of exogenously added DNA monitored by the use of fluorescent dyes. Proc Natl Acad Sci U S A 79 (2), 422-426
  82. Loyter, A. et al. (1982) Mechanisms of DNA entry into mammalian cells. II. Phagocytosis of calcium phosphate DNA co-precipitate visualized by electron microscopy. Exp Cell Res 139 (1), 223-234
  83. Tomasi, M. and Loyter, A. (1981) Selective extraction of biologically active F-glycoprotein from dithiothreitol reduced Sendai virus particles. FEBS Lett 131 (2), 381-385
  84. Wolf, D. et al. (1980) The interaction between Sendai virus and cell membranes. A quantitative analysis of 125I-sendai virus particles' association with human red blood cells. Exp Cell Res 130 (2), 361-369
  85. Record, M. et al. (1980) Utilization of membranous lipid substrates by membranous enzymes. Hydrolysis of sphingomyelin in erythrocyte 'ghosts' and liposomes by the membranous sphingomyelinase of chicken erythrocyte 'ghosts'. Biochem J 187 (1), 115-121
  86. Prujansky-Jakobovits, A. et al. (1980) Alteration of lymphocyte surface properties by insertion of foreign functional components of plasma membrane. Proc Natl Acad Sci U S A 77 (12), 7247-7251
  87. Loyter, A. and Lalazar, A. (1980) Induction of membrane fusion in human erythrocyte ghosts: involvement of spectrin in the fusion process. Soc Gen Physiol Ser 34, 11-26
  88. Loyter, A. et al. (1980) Association between enveloped viruses and host cell membranes: a specific case of ligand receptor interaction. Adv Biochem Psychopharmacol 21, 33-42
  89. Cabantchik, Z.I. et al. (1980) Reconstitution of the erythrocyte anion transport system: in vitro and in vivo approaches. Ann N Y Acad Sci 341, 444-454
  90. Beigel, M. et al. (1980) Functional incorporation of the human erythrocyte chloride exchange system into plasma membranes of Friend erythroleukemic cells by Sendai virus-induced cell fusion. Exp Cell Res 126 (2), 448-453
  91. Volsky, D.J. et al. (1979) Implantation of the isolated human erythrocyte anion channel into plasma membranes of Friend erythroleukemic cells by use of Sendai virus envelopes. Proc Natl Acad Sci U S A 76 (11), 5440-5444
  92. Loyter, A. et al. (1979) Use of enzymatic and electron microscopy (freeze-etching) methods for studying ATP-dependent masking of erythrocyte membrane phospholipids. Isr J Med Sci 15 (8), 668-674
  93. Laster, Y. et al. (1979) Viral and non-viral induced fusion of pronase-digested human erythrocyte ghosts. Biochim Biophys Acta 551 (2), 282-294
  94. Lalazar, A. and Loyter, A. (1979) Involvement of spectrin in membrane fusion: induction of fusion in human erythrocyte ghosts by proteolytic enzymes and its inhibition by antispectrin antibody. Proc Natl Acad Sci U S A 76 (1), 318-322
  95. Volsky, D.J. and Loyter, A. (1978) Role of Ca++ in virus-induced membrane fusion. Ca++ accumulation and ultrastructural changes induced by Sendai virus in chicken erythrocytes. J Cell Biol 78 (2), 465-479
  96. Volsky, D.J. and Loyter, A. (1978) An efficient method for reassembly of fusogenic Sendai virus envelopes after solubilization of intact virions with Triton X-100. FEBS Lett 92 (2), 190-194
  97. Volsky, D.J. and Loyter, A. (1978) Inhibition of membrane fusion by suppression of lateral movement of membrane proteins. Biochim Biophys Acta 514 (2), 213-224
  98. Frisch, A. et al. (1978) Inhibition of conjugation in Tetrahymena pyriformis by cerulenin. Possible requirement for de novo lipid synthesis. Biochim Biophys Acta 506 (1), 18-29
  99. Zakai, N. et al. (1977) Membrane ultrastructural changes during calcium phosphate-induced fusion of human erythrocyte ghosts. Proc Natl Acad Sci U S A 74 (6), 2417-2421
  100. Wasserman, M. et al. (1977) Role of Ca2+ in preserving viability of Friend erythroleukaemic cells after ultramicroinjection. J Cell Sci 27, 157-165
  101. Wasserman, M. et al. (1977) Degradation and localization of IgG injected into Friend erythroleukemic cells by fusion with erythrocyte ghosts. FEBS Lett 83 (1), 48-52
  102. Volsky, D. and Loyter, A. (1977) Rearrangement of intramembranous particles and fusion promoted in chicken erythrocytes by intracellular Ca2+. Biochim Biophys Acta 471 (2), 243-259
  103. Loyter, A. et al. (1977) Dephosphorylation of human erythrocyte membranes induced by sendai virus. Biochemistry 16 (17), 3903-3909
  104. Lalazar, A. et al. (1977) Restoration of the fusion capacity of human erythrocyte ghosts by SH blocking reagents. Exp Cell Res 107 (1), 79-88
  105. Gazitt, Y. et al. (1977) Induction of ATP depletion, intramembrane particle aggregation and exposure of membrane phospholipids in chicken erythrocytes by local anesthetics and tranquilizers. Biochim Biophys Acta 471 (3), 361-371
  106. Frisch, A. et al. (1977) Inhibition of conjugation in Tetrahymena pyriformis by concanavalin A. Binding of concanavalin A to material secreted during starvation and to washed cells. Exp Cell Res 106 (2), 293-301
  107. Frisch, A. and Loyter, A. (1977) Inhibition of conjugation in Tetrahymena pyriformis by ConA. Localization of ConA-binding sites. Exp Cell Res 110 (2), 337-346
  108. Zakai, N. et al. (1976) Fusion of human erythrocyte ghosts promoted by the combined action of calcium and phosphate ions. Nature 263 (5579), 696-699
  109. Wasserman, M. et al. (1976) A quantitative study of ultramicroinjection of macromolecules into animal cells. Cell 7 (4), 551-556
  110. Ofer, L. et al. (1976) Conjugation in Tetrahymena pyriformis. The effect of polylysine, concanavalin A, and bivalent metals on the conjugation process. J Cell Biol 70 (2 pt 1), 287-293
  111. Gazitt, Y. et al. (1976) Correlation between changes in the membrane organization and susceptibility to phospholipase C attack induced by ATP depletion of rat erythrocytes. Biochim Biophys Acta 419 (3), 479-492
  112. Gazitt, Y. et al. (1976) Phosphorylation and dephosphorylation of membrane proteins as a possible mechanism for structural rearrangement of membrane components. Biochim Biophys Acta 436 (1), 1-14
  113. Gazitt, Y. et al. (1976) Increase in the phospholipid phase extractable by dry ether following ATP-depletion of erythrocytes. Biochem Biophys Res Commun 72 (4), 1359-1366
  114. Frisch, A. et al. (1976) Inhibition of conjugation and cell division in Tetrahymena pyriformis by tunicamycin: a possible requirement of glycoprotein synthesis for induction of conjugation. Biochem Biophys Res Commun 72 (1), 138-145
  115. Michaeli, D. et al. (1975) Proceedings: Involvement of sulfhydryl groups in the virus-induced cell fusion process. Isr J Med Sci 11 (11), 1185-1186
  116. Loyter, A. et al. (1975) "Ultramicroinjection" of macromolecules or small particles into animal cells. A new technique based on virus-induced cell fusion. J Cell Biol 66 (2), 292-304
  117. Hirshfeld, D. and Loyter, A. (1975) Sphingomyelinase of chicken erythrocyte membranes. Arch Biochem Biophys 167 (1), 186-192
  118. Gazitt, Y. et al. (1975) Changes in phosoholipid susceptibility toward phospholipases induced by ATP depletion in avian and amphibian erythrocyte membranes. Biochim Biophys Acta 382 (1), 65-72
  119. Gazitt, Y. et al. (1975) Proceedings: ATP-dependent reversible masking of erythrocyte membrane phospholipids. Isr J Med Sci 11 (11), 1186
  120. Zakai, N. et al. (1974) Fusion of erythrocytes and other cells with retention of erythrocyte cytoplasm: nuclear activation in chicken erythrocyte-melanoma heterokaryons. J Cell Biol 61 (1), 241-248
  121. Zakai, N. et al. (1974) Prevention of hemolysis by bivalent metal ions during virus-induced fusion of erythrocytes with Ehrlich ascites tumor cells. FEBS Lett 40 (2), 331-334
  122. Sabban, E. and Loyter, A. (1974) Fusion of chicken erythrocytes by phospholipase C (Clostridium perfringens). The requirement for hemolytic and hydrolytic factors for fusion. Biochim Biophys Acta 362 (1), 100-109
  123. Peretz, H. et al. (1974) Fusion of intact human erythrocytes and erythrocyte ghosts. J Cell Biol 63 (1), 1-11
  124. Toister, Z. and Loyter, A. (1973) The mechanism of cell fusion. II. Formation of chicken erythrocyte polykaryons. J Biol Chem 248 (2), 422-432
  125. Frish, A. et al. (1973) Metabolically controlled hemolysis of chicken erythrocytes. Biochim Biophys Acta 291 (3), 690-700
  126. Yanovsky, A. and Loyter, A. (1972) The mechanism of cell fusion. I. Energy requirements for virus-induced fusion of Ehrlich ascites tumor cells. J Biol Chem 247 (12), 4021-4028
  127. Sabban, E. et al. (1972) Resolution of the hemolytic and the hydrolytic activities of phospholipase-C preparation from Clostridium perfringens. Eur J Biochem 28 (3), 373-380
  128. Loyter, A. (1972) [Non-viral induced fusion of erythrocytes]. Harefuah 83 (12), 549-554
  129. Laster, Y. et al. (1972) Susceptibility of membrane phospholipids in erythrocyte ghosts to phospholipase C and their refractiveness in the intact cell. FEBS Lett 20 (3), 307-310
  130. Toister, Z. and Loyter, A. (1971) Ca 2+ -induced fusion of avian erythrocytes. Biochim Biophys Acta 241 (2), 719-724
  131. Toister, Z. and Loyter, A. (1971) [Virus-induced membrane fusion]. Harefuah 81 (9), 405-409
  132. De Boer, E. and Loyter, A. (1971) Formation of polynucleate avian erythrocytes by polylysine and phospholipase C. FEBS Lett 15 (5), 325-327
  133. Burstein, C. et al. (1971) Effect of phospholipases on the structure and function of mitochondria. J Biol Chem 246 (12), 4075-4082
  134. Toister, Z. and Loyter, A. (1970) Virus induced fusion of chicken erythrocytes. Biochem Biophys Res Commun 41 (6), 1523-1530
  135. Loyter, A. et al. (1969) Energy-linked ion translocation in submitochondrial particles. I. Ca++ accumulation in submitochondrial particles. J Biol Chem 244 (16), 4422-4427
  136. Loyter, A. et al. (1969) Energy-driven Ca45 accumulation in submitochondrial particles. Ann N Y Acad Sci 147 (19), 846-848
  137. Christiansen, R.O. et al. (1969) Effect of anions on oxidative phosphorylation in submitochondrial particles. Biochim Biophys Acta 180 (1), 207-210
  138. Christiansen, R.O. et al. (1969) Energy-linked ion translocation in submitochondrial particles. II. Properties of submitochondrial particles capable of Ca++ translocation. J Biol Chem 244 (16), 4428-4436
  139. Loyter, A. et al. (1967) Respiratory control in submitochondrial particles and Ca++ transport. Biochem Biophys Res Commun 29 (3), 450-456
  140. Loyter, A. and Schramm, M. (1966) Multimolecular complexes of alpha-amylase with glycogen limit dextrin. Number of binding sites of the enzyme and size of the complexes. J Biol Chem 241 (11), 2611-2617
  141. Loyter, A. and Schramm, M. (1962) The glycogen-amylase complex as a means of obtaining highly purified alpha-amylases. Biochim Biophys Acta 65, 200-206

 

 

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