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Bioscience, Biotechnology, and Biochemistry Volume 74, 2010 - Issue 5
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Original Articles

A Eukaryotic Copper-Containing Nitrite Reductase Derived from a NirK Homolog Gene of Aspergillus oryzae

Yoshito NAKANISHIDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Shengmin ZHOUDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Sang-Wan KIMDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Shinya FUSHINOBUDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Jun-ichi MARUYAMADepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Katsuhiko KITAMOTODepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
,
Takayoshi WAKAGIDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
&
Hirofumi SHOUNDepartment of Biotechnology, Graduate School of Agricultural and Life Sciences, The University of Tokyo
 show all
Pages 984-991 | Received 13 Nov 2009, Accepted 15 Feb 2010, Published online: 22 May 2014

  • 1) Amino H, Wang H, Hirawake H, Saruta F, Mizuchi D, Mineki R, Shindo N, Murayama K, Takamiya S, Aoki T, Kojima S, and Kita K, Mol. Biochem. Parasitol., 106, 63–76 (2000).
  • 2) Zumft WG, Microbiol. Mol. Biol. Rev., 61, 533–616 (1997).
  • 3) Ferguson SJ, Antonie Van Leeuwenhoek, 66, 89–110 (1994).
  • 4) Cabello P, Roldan MD, and Moreno-Vivian C, Microbiology, 150, 3527–3546 (2004).
  • 5) Shoun H and Tanimoto T, J. Biol. Chem., 266, 11078–11082 (1991).
  • 6) Shoun H, Kim DH, Uchiyama H, and Sugiyama J, FEMS Microbiol. Lett., 73, 277–281 (1992).
  • 7) Watsuji TO, Takaya N, Nakamura A, and Shoun H, Biosci. Biotechnol. Biochem., 67, 1115–1120 (2003).
  • 8) Takaya N, Kuwazaki S, Adachi Y, Suzuki S, Kikuchi T, Nakamura H, Shiro Y, and Shoun H, J. Biochem., 133, 461–465 (2003).
  • 9) Kobayashi M, Matsuo Y, Takimoto A, Suzuki S, Maruo F, and Shoun H, J. Biol. Chem., 271, 16263–16267 (1996).
  • 10) Kobayashi M and Shoun H, J. Biol. Chem., 270, 4146–4151 (1995).
  • 11) Uchimura H, Enjoji H, Seki T, Taguchi A, Takaya N, and Shoun H, J. Biochem., 131, 579–586 (2002).
  • 12) Kizawa H, Tomura D, Oda M, Fukamizu A, Hoshino T, Gotoh O, Yasui T, and Shoun H, J. Biol. Chem., 266, 10632–10637 (1991).
  • 13) Park SY, Shimizu H, Adachi S, Nakagawa A, Tanaka I, Nakahara K, Shoun H, Obayashi E, Nakamura H, Iizuka T, and Shiro Y, Nat. Struct. Biol., 4, 827–832 (1997).
  • 14) Nakahara K, Tanimoto T, Hatano K, Usuda K, and Shoun H, J. Biol. Chem., 268, 8350–8355 (1993).
  • 15) Kim SW, Fushinobu S, Zhou S, Wakagi T, and Shoun H, Appl. Environ. Microbiol., 75, 2652–2658 (2009).
  • 16) Machida M, Asai K, Sano M, Tanaka T, Kumagai T, Terai G, Kusumoto K, Arima T, Akita O, Kashiwagi Y, Abe K, Gomi K, Horiuchi H, Kitamoto K, Kobayashi T, Takeuchi M, Denning DW, Galagan JE, Nierman WC, Yu J, Archer DB, Bennett JW, Bhatnagar D, Cleveland TE, Fedorova ND, Gotoh O, Horikawa H, Hosoyama A, Ichinomiya M, Igarashi R, Iwashita K, Juvvadi PR, Kato M, Kato Y, Kin T, Kokubun A, Maeda H, Maeyama N, Maruyama J, Nagasaki H, Nakajima T, Oda K, Okada K, Paulsen I, Sakamoto K, Sawano T, Takahashi M, Takase K, Terabayashi Y, Wortman JR, Yamada O, Yamagata Y, Anazawa H, Hata Y, Koide Y, Komori T, Koyama Y, Minetoki T, Suharnan S, Tanaka A, Isono K, Kuhara S, Ogasawara N, and Kikuchi H, Nature, 438, 1157–1161 (2005).
  • 17) Kaya M, Matsumura K, Higashida K, Hata Y, Kawato A, Abe Y, Akita O, Takaya N, and Shoun H, Biosci. Biotechnol. Biochem., 68, 2040–2049 (2004).
  • 18) Takahashi T, Masuda T, and Koyama Y, Mol. Genet. Genomics, 275, 460–470 (2006).
  • 19) Minetoki T, Kumagai C, Gomi K, Kitamoto K, and Takahashi K, Appl. Microbiol. Biotechnol., 50, 459–467 (1998).
  • 20) Minetoki T, Tsuboi H, Koda A, and Ozeki K, J. Biol. Macromol., 3, 89–96 (2003).
  • 21) Kitamoto K, Adv. Appl. Microbiol., 51, 129–153 (2002).
  • 22) Boulanger MJ and Murphy ME, J. Mol. Biol., 315, 1111–1127 (2002).
  • 23) Kukimoto M, Nishiyama M, Murphy ME, Turley S, Adman ET, Horinouchi S, and Beppu T, Biochemistry, 33, 5246–5252 (1994).
  • 24) Yamaguchi K, Kataoka K, Kobayashi M, Itoh K, Fukui A, and Suzuki S, Biochemistry, 43, 14180–14188 (2004).
  • 25) Ichiki H, Tanaka Y, Mochizuki K, Yoshimatsu K, Sakurai T, and Fujiwara T, J. Bacteriol., 183, 4149–4156 (2001).
  • 26) Suzuki S, Kataoka K, Yamaguchi K, Inoue T, and Kai Y, Coord. Chem. Rev., 192, 245–265 (1999).
  • 27) Modolo LV, Augusto O, Almeida IM, Magalhaes JR, and Salgado I, FEBS Lett., 579, 3814–3820 (2005).
  • 28) Rockel P, Strube F, Rockel A, Wildt J, and Kaiser WM, J. Exp. Bot., 53, 103–110 (2002).
  • 29) Yamasaki H and Sakihama Y, FEBS Lett., 468, 89–92 (2000).
  • 30) Yamasaki H, Sakihama Y, and Takahashi S, Trends Plant Sci., 4, 128–129 (1999).
  • 31) Castello PR, David PS, McClure T, Crook Z, and Poyton RO, Cell Metab., 3, 277–287 (2006).
  • 32) Takaya N and Shoun H, Mol. Gen. Genet.: MGG, 263, 342–348 (2000).
  • 33) Usuda K, Toritsuka N, Matsuo Y, Kim DH, and Shoun H, Appl. Environ. Microbiol., 61, 883–889 (1995).
  • 34) Finlay BJ, Span ASW, and Harman JMP, Nature, 303, 333–336 (1983).
  • 35) Risgaard-Petersen N, Langezaal AM, Ingvardsen S, Schmid MC, Jetten MS, Op den Camp HJ, Derksen JW, Pina-Ochoa E, Eriksson SP, Nielsen LP, Revsbech NP, Cedhagen T, and van der Zwaan GJ, Nature, 443, 93–96 (2006).
  • 36) Kreuzberg K, Physiol. Plant., 61, 87–94 (1984).
  • 37) Andersson SG and Kurland CG, Curr. Opin. Microbiol., 2, 535–541 (1999).
  • 38) Dyall SD, Yan W, Delgadillo-Correa MG, Lunceford A, Loo JA, Clarke CF, and Johnson PJ, Nature, 431, 1103–1107 (2004).
  • 39) Boxma B, de Graaf RM, van der Staay GW, van Alen TA, Ricard G, Gabaldon T, van Hoek AH, Moon-van der Staay SY, Koopman WJ, van Hellemond JJ, Tielens AG, Friedrich T, Veenhuis M, Huynen MA, and Hackstein JH, Nature, 434, 74–79 (2005).
  • 40) Martin W and Muller M, Nature, 392, 37–41 (1998).
  • 41) Tielens AG, Rotte C, van Hellemond JJ, and Martin W, Trends Biochem. Sci., 27, 564–572 (2002).
  • 42) Hrdy I, Hirt RP, Dolezal P, Bardonova L, Foster PG, Tachezy J, and Embley TM, Nature, 432, 618–622 (2004).

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