[ Nippon Nageikagaku Kaishi Vol. 72, No. 11, pp. 1333 `1344, 1998 l Key words: methylotrophic yeast; gene expres sion; C1-metabolism; peroxisome Cellular Functions of the Methylotrophic Yeast: Their Molecular Mechanism and Applications Yasuyoshi SAKAI (Division of Applied Life Sciences, Graduate School of Agriculture, Kyoto University)
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3556-3562 (1993). (20) Y. Sakai and Y. Tani: Gene, 114, 67-73 (1992). (21) Y. Sakai, A.P. Murdanoto, T. Konishi, A. Iwa matsu, and N. Kato: J. Bacteriol., 179, 4480-4485 (1997). (22) Y. Sakai, T. Nakagawa, M. Shimase, and N. Kato: J. Bacteriol., 180 in press (1998). (23) Y. Sakai, A. P. Murdanoto, L. Sembiring, Y. Tani, and N. Kato: FEMS Microbiol. Lett., 127, 229-234 (1995). (24) A. P.Murdanoto, Y. Sakai, T. Konishi, F. Yasuda, Y. Tani, and N. Kato: Appl. Environ. Microbiol., 63, 1715-1720 (1997). (1) K. Ogata, H. Nishikawa, and M. Ohsugi: Agric. Biol. Chem.,33, 1519-1520 (1969). (2) Y. Tani, in "Biology of Methylotrophs," ed. by I. Goldberg and J.S. Rokem, Butterworth-Heine mann, Boston, 1991, pp. 253-270. (3) J.M.Cregg: Bio/Technology, 11, 905-910 (1993). (4) S.Subramani: Physiol. Rev., 78, 1-18 (1998). (5) R.A. Rachubinski and S. Subramani: Cell, 83, 525-528(1995). (6) Y. Tani, in "Methylotrophs: Microbiology, Bio chemistry, and Genetics," ed. by C.T. Hou, CRC Press Inc., Boca Raton, Florida, U.S.A., 1984, pp. 55-85. (7) S.Fukui, A.Tanaka, S. Kawamoto, S.Yasuhara, Y. Teranishi, and M. Osumi: J. Bacteriol., 123, 317-328 (1975). (8) J.M. Goodman: J. Biol. Chem., 260, 7108-7113 (1985). (9) Y. Tani, Y. Sakai, and H. Yamada: Agric. Biol. Chem., 49,2699-2706 (1985). (10) Y. Tani, Y. Sakai, and H. Yamada: J. Ferment. Technol., 63, 443-449 (1985). (11) Y. Tani, T. Sawai, and Y. Sakai: Biotechnol. Bioeng.,32,1165-1169 (1988). (12) Y. Sakai and Y. Tani: J. Ferment. Technol., 65, 489-491 (1987). (13) Y. Sakai, T. Sawai, and Y. Tani: Appl. Environ. Microbiol., 53, 1812-1818 (1987). (14) Y. Sakai and Y. Tani: Appl. Environ. Microbiol., 54, 485-489 (1988). (15) Y. Sakai and Y. Tani: Agric. Biol. Chem., 51, 2617-2620(1987). (16) Y. Sakai, T.Kazarimoto, and Y.Tani:J. Bacteriol., 173, 7458-7463 (1991). (17) Y. Sakai and Y. Tani: J. Bacteriol., 174, 5988-5993(1992). (18) Y. Sakai, T.Kazarimoto, and Y. Tani: J. Ferment. Biotechnol., 73, 255-260 (1992). (19) Y. Sakai, T. K. Goh, and Y. Tani: J. Bacterial., 175. (25) A.P.Murdanoto, Y.Sakai,L.Sembiring, Y. Tani, and N. Kato: Biosci. Biotechnol. Biochem., 61, 1391-1393(1997). (26) M. Kusano, Y. Sakai, N. Kato, H. Yoshimoto, H. Sone, and Y. Tamai: Biosci. Biotechnol. Biochem., in press (1998). (27) Y. Sakai, T. Rogi, R. Takeuchi, N. Kato, and Y. Tani: Appl. Microbiol. Biotechnol., 42, 860-864 (1995). (28) Y. Sakai, M. Akiyama, H. Kondoh, Y. Shibano, and N. Kato: Biochim. Biophys. Acta, 1308, 81-87 (1996). (29) Y. Sakai, T. Rogi, T. Yonehara, N. Kato, and Y. Tani: Bio/Technology, 12, 291-293 (1994). (30) S.J.Gould, G.A. Keller, and S. Subramani: J. Cell Biol., 105,2923-2931 (1987). (31) S.J. Gould, G.A. Keller, N. Hosken, J. Wilkinson, and S. Subramani: J. Cell Biol., 108, 1657-1664 (1989). (32) S.J. Gould, G. A. Keller, M. Schneider, S.H. Howell, L.J. Garrard, J.M. Goodman, B. Distel, H. Tabak, and S. Subramani: EMBO J., 9, 85-90 (1990). (33) S. Subramani: Annu. Rev. Cell Biol., 9, 445-478 (1993). (34) S. Subramani: Nature Genetics, 15, 331-333 (1997). (35) Y. Sakai, H. Matsuo, K.Z. He, A. Saiganji, H. Yurimoto, K. Takabe, H. Saiki, and N. Kato: Bio sci. Biotechnol. Biochem., 59, 869-875 (1995). (36) Y. Sakai, H. Yurimoto, H. Matsuo, and N. Kato: Yeast, 14, 1175-1187 (1998). (37) R.Erdmann and G. Blobel: J. Cell Biol., 128, 509-524 (1995). (38) P.A. Marshall, Y.I. Krimkevich, R.H. Lark, J. Dyer, M. Veenhuis, and J.M. Goodman: J. Cell Biol., 129, 345-355 (1995). (39) B.Distel, R.Erdmann, S.J.Gould, G.Blobel, D.I. Crane, J.M. Cregg, G. Dodt, Y. Fujiki, J.M. Good man, W.W. Just, J.A.K.W. Kiel, W.-H. Kunau, P.
[ Nippon Nogeikagaku Kaishi B. Lazarow, G.P. Mannaerts, H.W. Moser, T. Osumi, R.A.Rachubinski, A.Roscher, S. Subra mani, H. Tabak, T. Tsukamoto, D. Valle, I. van der Klei, P.P. van Veldhoven, J. Cell Biol., 135,1-3 (1996). and M. Veenhuis: (40) Y. Sakai, P.A. Marshall, A. Saiganji, K. Takabe, H. Saiki, N. Kato, and J.M. Goodman: J. Bacteriol., 177, 6773-6781 (1995). (41) M. Passreiter, M. Anton, D. Lay, R. Frank, C. Harter, F. Wieland, K. Gorgas, and W.W. Just: J. Cell Biol., 141, 373-383 (1998). (42) B.Jank, B. Habermann, R.J. Schweyen, and T. A. Link: Trends Biochem. Sci., 18, 427-428 (1993). (43) Y. Sakai, A. Saiganji, H. Yurimoto, K. Takabe, H. Saiki, and N.Kato:J. Cell Biol., 134, 37-51 (1996). (44) E.H. Hettema, C.W.T. van Roermund, B.Distel, M. vam den Berg, C. Vilela, C. Rodrigues- Pousada, R.J.A. Wanders, and H.F. Tabak: EMBO J., 15, 3813-3822 (1996). (45) Y. Sakai, A. Koller, L.K. Rangell, G.A. Keller, and S. Subramani: J. Cell Biol., 141, 625-636 (1998). (46) J. A. McNew and J.M. Goodman: Trends Bio chem. Sci., 21, 54-58 (1996).