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Общее количество найденных документов : 47
Показаны документы с 1 по 20
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1.
| An evolutionarily conserved positively charged amino acid in the putative membrane-spanning domain of the foamy virus envelope protein controls fusion activity // J. Virol., 2000. Vol. 74, N 10.-С.4474-4482
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2.
| Cell fusion activity of hepatitis C virus envelope proteins // J. Virol., 2000. Vol. 74, N 11.-С.5066-5074
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3.
| Luo Roles in cell-to-cell fusion of two conserved hydrophobic regions in the murine coronavirus spike protein // Virology, 1998. Vol. 244, N 2.-С.483-494
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4.
| Nakamura H. Postbinding fusion function contributed by a chimeric murine leukemia virus envelope protein // Arch. Virol., 2001. Vol. 146, N 5.-С.953-961
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| Nakamura H. Postbinding fusion function contributed by a chimeric murine leukemia virus envelope protein // Arch. Virol., 2001. Vol. 146, N 5.-С.953-961
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6.
| Induction of syncytia by neuropathogenic murine leukemia viruses depends on receptor density, host cell determinants, and the intrinsic fusion ptoential of envelope protein // J. Virol., 1999. Vol. 73, N 11.-С.9377-9385
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7.
| Fusogenic acitivity of hepadnavirus peptides corresponding to sequences downstream of the putative cleavage site // Virology, 1999. Vol. 261, N 1.-С.133-142
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8.
| Tanaka Human parainfluenza virus type 3: Analysis of the cytoplasmic tail and transmembrane anchor of the hemagglutinin-neuraminidase protein in promoting cell fusion // Virus Res., 1995. Vol. 35, N 2-3.-С.131-149
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9.
| Roman Acidic pH enhancement of the fusion of Newcastle disease virus with cultured cells // Virology, 1999. Vol. 260, N 2.-С.329-341
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10.
| Induction of syncytia by neuropathogenic murine leukemia viruses depends on receptor density, host cell determinants, and the intrinsic fusion ptoential of envelope protein // J. Virol., 1999. Vol. 73, N 11.-С.9377-9385
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11.
| Mutational analysis of the putative fusion domain of Ebola virus glycoprotein // J. Virol., 1999. Vol. 73, N 10.-С.8907-8912
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12.
| An envelope glycoprotein of the human endogenous retrovirus HERV-W is expressed in the human placenta and fuses cells expressing the type D mammalian retrovirus receptor // J. Virol., 2000. Vol. 74, N 7.-С.3321-3329
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13.
| ПСЕВДОВИРУСЫ С ПОВЕРХНОСТНЫМИ БЕЛКАМИ ВИРУСА ГРИППА КАК МОДЕЛЬ ВИРУСНОЙ ИНФЕКЦИИ // Вестн. НГУ. Сер. Биол., клин. мед., 2013. Т. 11, N 4.-С.22-28
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14.
| Phospholipase A[2] activity-dependent and -independent fusogenic activity of Naja nigricollis CMS-9 on zwitterionic and anionic phospholipid vesicles // Toxicon, 2011. Vol. 58, N 6-7.-С.518-526
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15.
| Horvath C.M. SYS fusion glycoprotelas with altered F[1] NH[2] termini retala fusogenic activity // J. Cell Biol., 1990. Vol. 111, N 5.-С.320
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16.
| Rogalin Henry B. Interplay between the herpes simplex virus 1 gB cytodomain and the gH cytotail during cell-cell fusion // J. Virol., 2015. Vol. 89, N 24.-С.12262-12272
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17.
| Nussbaum O. Factors associated with selective fusogenic activities of HIV envelope glycoproteins for specific CD4{+} cell types // J. Cell. Biochem., 1993, Suppl. 17Е.-С.34
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18.
| Characterization of a putative fusogenic sequence in the E2 hepatitis G virus protein // Arch. Biochem. and Biophys., 2005. Vol. 442, N 2.-С.149-159
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19.
| Taeron C. Inhibiteurs de fusion: Dernieres avancees // J. sida et democr. sanit., 2001, N 134.-С.5-6
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20.
| Role of hemagglutinin surface density in the initial stages of influenza virus fusion: Lack of evidence for cooperativity // J. Virol., 2000. Vol. 74, N 6.-С.2714-2720
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