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Journal Abstract Search

121 related items for PubMed ID: 10374951

  • 1. Effect of C-terminal deletions in the movement protein of cowpea chlorotic mottle virus on cell-to-cell and long-distance movement.
    Osman F, Schmitz I, Rao AL.
    J Gen Virol; 1999 Jun; 80 ( Pt 6)():1357-1365. PubMed ID: 10374951
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  • 2. Molecular studies on bromovirus capsid protein. III. Analysis of cell-to-cell movement competence of coat protein defective variants of cowpea chlorotic mottle virus.
    Rao AL.
    Virology; 1997 Jun 09; 232(2):385-95. PubMed ID: 9191853
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  • 3. Capsid protein gene and the type of host plant differentially modulate cell-to-cell movement of cowpea chlorotic mottle virus.
    Rao AL, Cooper B.
    Virus Genes; 2006 Jun 09; 32(3):219-27. PubMed ID: 16732474
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  • 4. Molecular studies on bromovirus capsid protein. IV. Coat protein exchanges between brome mosaic and cowpea chlorotic mottle viruses exhibit neutral effects in heterologous hosts.
    Osman F, Grantham GL, Rao AL.
    Virology; 1997 Nov 24; 238(2):452-9. PubMed ID: 9400617
    [Abstract] [Full Text] [Related]

  • 5. Cucumovirus- and bromovirus-encoded movement functions potentiate cell-to-cell movement of tobamo- and potexviruses.
    Tamai A, Kubota K, Nagano H, Yoshii M, Ishikawa M, Mise K, Meshi T.
    Virology; 2003 Oct 10; 315(1):56-67. PubMed ID: 14592759
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  • 6. Coat protein-independent cell-to-cell movement of bromoviruses expressing brome mosaic virus movement protein with an adaptation-related amino acid change in the central region.
    Sasaki N, Kaido M, Okuno T, Mise K.
    Arch Virol; 2005 Jun 10; 150(6):1231-40. PubMed ID: 15906103
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  • 8. Bromovirus movement protein conditions for the host specificity of virus movement through the vascular system and affects pathogenicity in cowpea.
    Fujita Y, Fujita M, Mise K, Kobori T, Osaki T, Furusawa I.
    Mol Plant Microbe Interact; 2000 Nov 10; 13(11):1195-203. PubMed ID: 11059486
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  • 9. Effects of artificial codon changes in the movement protein gene on adaptation of a hybrid bromovirus to cowpea.
    Sasaki N, Kaido M, Okuno T, Mise K.
    Microbiol Immunol; 2004 Nov 10; 48(2):131-5. PubMed ID: 14978339
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  • 11. The movement protein gene is involved in the virus-specific requirement of the coat protein in cell-to-cell movement of bromoviruses.
    Sasaki N, Arimoto M, Nagano H, Mori M, Kaido M, Mise K, Okuno T.
    Arch Virol; 2003 Apr 10; 148(4):803-12. PubMed ID: 12664302
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  • 12. Role of the alfalfa mosaic virus movement protein and coat protein in virus transport.
    Sánchez-Navarro JA, Bol JF.
    Mol Plant Microbe Interact; 2001 Sep 10; 14(9):1051-62. PubMed ID: 11551070
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  • 13. Bromovirus movement protein genes play a crucial role in host specificity.
    Mise K, Allison RF, Janda M, Ahlquist P.
    J Virol; 1993 May 10; 67(5):2815-23. PubMed ID: 7682628
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  • 16. The nine C-terminal residues of the grapevine fanleaf nepovirus movement protein are critical for systemic virus spread.
    Belin C, Schmitt C, Gaire F, Walter B, Demangeat G, Pinck L.
    J Gen Virol; 1999 Jun 10; 80 ( Pt 6)():1347-1356. PubMed ID: 10374950
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  • 17. Natural isolates of Brome mosaic virus with the ability to move from cell to cell independently of coat protein.
    Takeda A, Nakamura W, Sasaki N, Goto K, Kaido M, Okuno T, Mise K.
    J Gen Virol; 2005 Apr 10; 86(Pt 4):1201-1211. PubMed ID: 15784914
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  • 19. A single codon change in a conserved motif of a bromovirus movement protein gene confers compatibility with a new host.
    Fujita Y, Mise K, Okuno T, Ahlquist P, Furusawa I.
    Virology; 1996 Sep 15; 223(2):283-91. PubMed ID: 8806564
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  • 20. Deletion of the C-terminal 33 amino acids of cucumber mosaic virus movement protein enables a chimeric brome mosaic virus to move from cell to cell.
    Nagano H, Okuno T, Mise K, Furusawa I.
    J Virol; 1997 Mar 15; 71(3):2270-6. PubMed ID: 9032362
    [Abstract] [Full Text] [Related]

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