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E gμMK, ιLλΉ (2002)
Movement protein»A¨ΜECXΑΩIοR«Ζ»ΜJjY. ϊ{A¨awο A¨΄υΆkbο_ΆW38: 13-22.
E Isogai, M., Saitou, Y., Takahashi, N., Itabashi, T., Terada, M., Satoh,
H. and Yoshikawa, N.(2003)
The 50-kDa protein of Apple chlorotic leaf spot virus interferes with intracellular
and intercellular targeting, and tubule-inducing activity of the 39-kDa
protein of Grapevine berry inner necrosis virus. Mol. Plant-Microbe Interact.
16: 188-195.
E ιLλΉ, gμMK (2003)
ECXΜΧEΤΪs^pNΏπ»·ι`Ώ]·A¨ΜECXοR«. ϊ{A¨awο A¨΄υΆkbο_ΆW39: 17-26.
E Sekiguchi, H., Isogai, M., Masuta, C. and Uyeda, I. (2004)
3C-like protease encoded by Rice tungro spherical virus is autocatalytically
processed. Archives of Virology, 150, 595-601.
E Li, C., Sasaki, N., Isogai, M. and Yoshikawa, N. (2004).
Stable expression of foreign proteins in herbaceous and apple plants using
Apple latent spherical virus RNA2 vectors. Archives of Virology 149, 1541
? 1558.
E Isogai, M., Aoyagi, J., Nakagawa, M., Kubodera, Y., Satoh, K., Katoh,
T., Inamori, M., Yamashita, K. and Yoshikawa, N. (2004).
Molecular detection of five cherry viruses from sweet cherry trees in
Japan. Journal of General Plant Pathology, 70, 288-291.
E Isogai, M. and Yoshikawa, N. (2005).
Mapping the RNA-binding domain on the Apple chlorotic leaf spot virus movement
protein. Journal of General Virology, 86, 225-229.
E Yoshikawa, N., Okada, K., Asanuma, K., Watanabe, K., Igarashi, A., C.
Li, and Isogai, M. (2006).
A movement protein and three capsid proteins are all necessary for the cell-to-cell movement of apple latent spherical cheravirus. Archives of Virology, 151, 837-848.
E M, Isogai, K. Watanabe; Y. Uchidate; N. Yoshikawa (2006).
Protein-Protein and Protein-RNA binding properties of the movement protein
and VP25 coat protein of Apple latent spherical virus. Virology. 352, 178-187.
E N. Yoshikawa, Y. Saitou, A. Kitajima, T. Chida, N. Sasaki, and M. Isogai.
(2006)
Interference of long-distance movement of Grapevine berry inner necrosis
virus in transgenic plants expressing a defective movement protein of Apple
chlorotic leaf spot virus. Phytopathology, 96, 387-385.
E gμMKARΣA²XΨL_Aά\IAR`LγAͺd~³A΄AιLλΉ (2006)
S¬
`φέECXΜ΄υEΪsΖRNAZCVOΜU±.@ ϊ{A¨awο A¨΄υΆkbο_ΆW42: 107-116.
E H. Yaegashi, T. Takahashi, M. Isogai, T. Kobori, S. Ohki, N. Yoshikawa.
(2007)
Apple chlorotic leaf spot virus 50 kDa protein acts as a suppressor of
systemic silencing without interfering with local silencing in Nicotiana
benthamiana. Journal of General Virology 88, 316-324.
EH. Yaegashi, M. Isogai, H. Tajima, T. Sano, N. Yoshikawa. (2007)
Combinations of two amino acids (Ala40 and Phe75 or
Ser40 and Tyr75) in the coat protein of apple chlorotic leaf spot virus are
crucial for infectivity. Journal of General Virology 88, 2611-2618.
E Takahashi, T. Sugawara, T. Yamatsuta, M. Isogai, T. Natsuaki, and N.
Yoshikawa. (2007)
Analysis of the Spatial Distribution of Identical and Two Distinct Virus
Populations Differently Labeled with Cyan and Yellow Fluorescent Proteins
in Coinfected Plants. Phytopathology 97, 1200-1206.
E H. Yaegashi, T. Yamatsuta, T. Takahashi, C. Li, M. Isogai, T. Kobori,
S. Ohki, N. Yoshikawa. (2007)
Characterization of virus-induced gene silencing in tobacco plants infected
with apple latent spherical virus. Archives of Virology, online first.
E M. Isogai, H. Yaegashi, N. Yoshikawa (2007).
The Multifunctional roles of Apple chlorotic leaf spot virus 50KP movement protein. Plant viruses 1, 135-141.
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