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Общее количество найденных документов : 18
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1.
| Differential syncytium-inducing capacity of human immunodeficiency virus isolates: frequent detection of syncytium-inducing isolates in patients with acquired immunodeficiency syndrome (AIDS) and AIDS-related complex // J. Virol., 1988. Vol. 62, N 6.-С.2026-2032
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2.
| Давыдов В.Г. К вопросу о структуре, функции и происхождении тегумента у представителей Cercomeromorpha // Тр. Зоол. ин-та АН СССР, 1991. Т. 241.-С.138-152
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3.
| Functional epitope analysis of the human LFA-1 molecule (leucocyte function associated antigen-1) involved in HIV-1 induced syncytium formation // 11th Eur. Immunol. Meet., Espoo, 9-12 June, 1991. -Helsinki, 1991.-С.29-15
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4.
| VPU affects the ability of HIV-1 to replicate and form syncytia in cells expressing high levels of CO4 // J. Cell. Biochem., 1993, Suppl. 17e.-С.50, 1
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5.
| Identification of an 80-kilodalton membrane glycoprotein important for human T-cell leukemia virus type I and type II syncytium formation and infection // J. Virol, 1994. Vol. 68, N 1.-С.485-493
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| Coexpression of NK-'каппа'B/Rel and Sp1 transcription factors in human immunodeficiency virus 1-induced, dendritic cell-T-cell syncytia // Proc. Nat. Acad. Sci. USA, 1995. Vol. 92, N 24.-С.10944-10948
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7.
| Paramyxovirus-induced syncytium cell formation is suppressed by a dominant negative fusion regulatory protein-1 (FRP-1)/CD98 mutated construct: An important role of FRP-1 in virus-induced cell fusion // J. Gen. Virol., 1997. Vol. 78, N 4.-С.775-783
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| Cell fusion infectivity assay in patients receiving retroviral therapy // Rev. Inst. med. trop. Sao Paulo, 1999. Vol. 41, Suppl. 11.-С.61
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| Cell fusion infectivity assay in patients receiving retroviral therapy // Rev. Inst. med. trop. Sao Paulo, 1999. Vol. 41, Suppl. 11.-С.61
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10.
| Finger Fern P. Fusion and fission: Membrane trafficking in animal cytokinesis // Cell, 2002. Vol. 108, N 6.-С.727-730
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11.
| Nematode infection triggers the de novo formation of unloading phloem that allows macromolecular trafficking of green fluorescent protein into syncytia // Plant Physiol., 2005. Vol. 138, N 1.-С.383-392
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12.
| Nematode infection triggers the de novo formation of unloading phloem that allows macromolecular trafficking of green fluorescent protein into syncytia // Plant Physiol., 2005. Vol. 138, N 1.-С.383-392
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13.
| Expression of expansins in syncytia induced by cyst nematodes // J. Plant Diseases and Prot., 2006. Vol. 113, N 6.-С.283
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14.
| Hofmann How cyst nematodes get their sweets: Sugar supply of nematode-induced syncytia depends on the apoplasmic and the symplasmic transport pathway // J. Plant Diseases and Prot., 2006. Vol. 113, N 6.-С.283
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15.
| Non-invasive fluorescence imaging reveals symplastic feeding of syncytia and increasing numbers of companion cells and sieve elements following cyst nematode infestation // J. Plant Diseases and Prot., 2006. Vol. 113, N 6.-С.283
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16.
| Hammes Ulrich Z. Loading of nutrients into nematode induced feeding sites // J. Plant Diseases and Prot., 2006. Vol. 113, N 6.-С.283
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17.
| Starch serves as carbohydrate storage in nematode-15 induced syncytia // J. Plant Diseases and Prot., 2008. Vol. 115, N 3.-С.134
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18.
| Arabidopsis endo-1,4-'бета'-glucanases are involved in the formation of root syncytia induced by Heterodera schachtii // Plant J., 2008. Vol. 53, N 2.-С.336-351
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