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Общее количество найденных документов : 80
Показаны документы с 1 по 20
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1.
| Dougherty William G. Molecular genetic and biochemical evidence for the involvement of the heptapeptide clepavage sequence in determining the reaction profile at two tobacco etch virus cleavage sites in cell-free assays // Virology, 1989. Vol. 172, N 1.-С.145-155
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2.
| Ryan Martin D. Specificity of enzyme-substrate interactions in foot-and-mouth disease virus polyprotein processing // Virology, 1989. Vol. 173, N 1.-С.35-45
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3.
| Chait Effects of antihypertensive agents on serum lipids and lipoproteins // Amer. J. Med., 1989. Vol. 86, N 1 В.-С.5-7
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4.
| Coronavirus genome: prediction of putative functional domains in the non-structural polyprotein by comparative amino acid sequence analysis // Nucl. Acids Res., 1989. Vol. 17, N 12.-С.4847-4861
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5.
| Identification of a domain required for autoproteolytic cleavage of murine coronavirus gene A polyprotein // J. Virol., 1989. Vol. 63, N 9.-С.3693-3699
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6.
| Processing of yellow fever virus polyprotein: role of cellular proteases in maturation of the structural proteins // J. Virol., 1989. Vol. 63, N 10.-С.4199-4209
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7.
| Chimeric picornavirus polyproteins demonstrate a common 3C proteinase substrate specificity // J. Virol., 1989. Vol. 63, N 8.-С.3444-3452
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8.
| Distinct modes of poliovirus polyprotein initiation in vitro // Virus Res., 1989. Vol. 14, N 2.-С.107-118
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9.
| Dougherty William G. Molecular genetic analysis of a plant virus polyprotein cleavage site: a model // Virology, 1989. Vol. 169, N 2.-С.356-364
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10.
| Prediction of proteinase cleavage sites in polyproteins of coronaviruses and its applications in analyzing SARS-CoV genomes // FEBS Lett., 2003. Vol. 553, N 3.-С.451-456
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11.
| Механизм контроля инфекции с помощью полипротеинов микроорганизмов и рецепторов Tdl // Minophagen Med. Rev., 1999. Vol. 44, N 6.-С.19-21
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12.
| Ziebuhr Processing of the human coronavirus 229E replicase polyproteins by the virus-encoded 3C-like proteinase: Identirication of proteolytic products and cleavage sites common to pp1a and pp1ab // J. Virol., 1999. Vol. 73, N 1.-С.177-185
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13.
| Thole Rice tungro spherical virus polyprotein processing: Identification of a virus-encoded protease and mutational analysis of putative cleavage sites // Virology, 1998. Vol. 247, N 1.-С.106-114
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14.
| Complete protein linkage map of poliovirus P3 proteins: Interaction of polymerase 3D{po1} with VPg and with genetic variants of 3AB // J. Virol., 1998. Vol. 72, N 8.-С.6732-6741
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15.
| Sanchez Ana B. Proteolytic processing in infectious bursal disease virus: Identification of the polyprotein cleavage sites by site-directed mutagenesis // Virology, 1999. Vol. 262, N 1.-С.190-199
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16.
| Liang Mutational analysis of the Rubella virus nonstructural polyprotein and its cleavage products in virus replication and RNA synthesis // J. Virol., 2000. Vol. 74, N 11.-С.5133-5141
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17.
| Use of multiepitope polyproteins in serodiagnosis of active tuberculosis // Clin. and Diagn. Lab. Immunol., 2002. Vol. 9, N 4.-С.883-891
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18.
| Wang Proteolytic processing at a novel cleavage site in the N-terminal region of the tomato ringspot nepovirus RNA-1-encoded polyprotein in vitro // J. Gen. Virol., 2000. Vol. 81, N 11.-С.2771-2781
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19.
| Four proteins processed from the replicase gene polyprotein of mouse hepatitis virus colocalize in the cell periphery and adjacent to sites of virion assembly // J. Virol., 2000. Vol. 74, N 7.-С.3379-3387
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20.
| Two amino acids, Phe 16 and Ala 776, on the polyprotein are most likely to be responsible for the diabetogenicity of encephalomyocarditis virus // J. Gen. Virol., 1990. Vol. 71, N 3.-С.639-645
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