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134 related items for PubMed ID: 2846047

  • 1. Effects of fusion temperature on the lateral mobility of Sendai virus glycoproteins in erythrocyte membranes and on cell fusion indicate that glycoprotein mobilization is required for cell fusion.
    Aroeti B, Henis YI.
    Biochemistry; 1988 Jul 26; 27(15):5654-61. PubMed ID: 2846047
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  • 2. Interaction of Sendai virions with resealed human erythrocyte ghosts. Lateral mobility of the viral glycoproteins in the cell membrane following fusion.
    Henis YI, Gutman O.
    FEBS Lett; 1988 Feb 15; 228(2):281-4. PubMed ID: 2830142
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  • 3. Lateral mobility of reconstituted Sendai virus envelope glycoproteins on human erythrocytes: correlation with cell-cell fusion.
    Henis YI, Gutman O.
    Biochemistry; 1987 Feb 10; 26(3):812-9. PubMed ID: 3032238
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  • 8. Sendai virus envelope glycoproteins become laterally mobile on the surface of human erythrocytes following fusion.
    Henis YI, Gutman O, Loyter A.
    Exp Cell Res; 1985 Oct 10; 160(2):514-26. PubMed ID: 2995100
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  • 9. The role of the target membrane structure in fusion with Sendai virus.
    Sarkar DP, Blumenthal R.
    Membr Biochem; 1985 Oct 10; 7(4):231-47. PubMed ID: 2855807
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  • 10. Application of fluorescence photobleaching recovery to assess complex formation between the two envelope proteins of Sendai virus in membranes of fused human erythrocytes.
    Katzir Z, Gutman O, Henis YI.
    Biochemistry; 1989 Jul 25; 28(15):6400-5. PubMed ID: 2551371
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  • 11. Fluorescence photobleaching recovery as a method to quantitate viral envelope-cell fusion: application to study fusion of Sendai virus envelopes with cells.
    Aroeti B, Henis YI.
    Biochemistry; 1986 Aug 12; 25(16):4588-96. PubMed ID: 3021192
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  • 13. Rotational mobility of Sendai virus glycoproteins in membranes of fused human erythrocytes and in the envelopes of cell-bound virions.
    Aroeti B, Jovin TM, Henis YI.
    Biochemistry; 1990 Oct 02; 29(39):9119-25. PubMed ID: 2176844
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  • 15. Mobilization and aggregation of integral membrane proteins in erythrocytes induced by interaction with influenza virus at acidic pH.
    Yoshimura A, Yamashina S, Ohnishi S.
    Exp Cell Res; 1985 Sep 02; 160(1):126-37. PubMed ID: 2995092
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  • 16. Kinetic modeling of Sendai virus fusion with PC-12 cells. Effect of pH and temperature on fusion and viral inactivation.
    Pedroso de Lima MC, Ramalho-Santos J, Martins MF, Pato de Carvalho A, Bairos V, Nir S.
    Eur J Biochem; 1992 Apr 01; 205(1):181-6. PubMed ID: 1313363
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  • 17. Transient alterations in the lateral mobility of erythrocyte membrane components during Sendai virus-mediated fusion.
    Aroeti B, Gutman O, Henis YI.
    J Biol Chem; 1992 Jul 05; 267(19):13272-7. PubMed ID: 1320013
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  • 18. Fusion of native Sendai virions with human erythrocytes. Quantitation by fluorescence photobleaching recovery.
    Aroeti B, Henis YI.
    Exp Cell Res; 1987 Jun 05; 170(2):322-37. PubMed ID: 3036551
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  • 19. Implantation of isolated carriers and receptors into living cells by Sendai virus envelope-mediated fusion.
    Loyter A, Chejanovsky N, Citovsky V.
    Methods Enzymol; 1989 Jun 05; 171():829-50. PubMed ID: 2556627
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  • 20. Significance of basolateral domain of polarized MDCK cells for Sendai virus-induced cell fusion.
    Tashiro M, Yamakawa M, Tobita K, Klenk HD, Seto JT, Rott R.
    Arch Virol; 1992 Jun 05; 125(1-4):129-39. PubMed ID: 1322649
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