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Bioscience, Biotechnology, and Biochemistry Volume 73, 2009 - Issue 6
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Original Articles

Activation of the Oxidative Stress Regulator PpYap1 through Conserved Cysteine Residues during Methanol Metabolism in the Yeast Pichia pastoris

Taisuke YANODivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
,
Hiroya YURIMOTODivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University
&
Yasuyoshi SAKAIDivision of Applied Life Sciences, Graduate School of Agriculture, Kyoto University;CREST, Japan Science and Technology Agency
Pages 1404-1411 | Received 10 Feb 2009, Accepted 11 Mar 2009, Published online: 22 May 2014

Citations (13)

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Zhenyu ZHAI, Hiroya YURIMOTO & Yasuyoshi SAKAI. (2012) Msn5p Is Involved in Formaldehyde Resistance but Not in Oxidative Stress Response in the Methylotrophic Yeast Candida boidinii . Bioscience, Biotechnology, and Biochemistry 76:2, pages 299-304.
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Tomoyuki NAKAGAWA, Kyoko YOSHIDA, Akihito TAKEUCHI, Takashi ITO, Shuki FUJIMURA, Yoshimi MATSUFUJI, Noboru TOMIZUKA, Hiroya YURIMOTO, Yasuyoshi SAKAI & Takashi HAYAKAWA. (2010) The Peroxisomal Catalase Gene in the Methylotrophic Yeast Pichia methanolica. Bioscience, Biotechnology, and Biochemistry 74:8, pages 1733-1735.
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Articles from other publishers (11)

Cristina Bustos, Johan Quezada, Rhonda Veas, Claudia Altamirano, Stephanie Braun-Galleani, Patrick Fickers & Julio Berrios. (2022) Advances in Cell Engineering of the Komagataella phaffii Platform for Recombinant Protein Production. Metabolites 12:4, pages 346.
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Shin Ohsawa, Hiroya Yurimoto & Yasuyoshi Sakai. (2017) Novel function of W sc proteins as a methanol‐sensing machinery in the yeast P ichia pastoris . Molecular Microbiology 104:2, pages 349-363.
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Thomas Vogl, Lukas Sturmberger, Thomas Kickenweiz, Richard Wasmayer, Christian Schmid, Anna-Maria Hatzl, Michaela A. Gerstmann, Julia Pitzer, Marlies Wagner, Gerhard G. Thallinger, Martina Geier & Anton Glieder. (2015) A Toolbox of Diverse Promoters Related to Methanol Utilization: Functionally Verified Parts for Heterologous Pathway Expression in Pichia pastoris . ACS Synthetic Biology 5:2, pages 172-186.
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Roland Prielhofer, Stephanie P Cartwright, Alexandra B Graf, Minoska Valli, Roslyn M Bill, Diethard Mattanovich & Brigitte Gasser. (2015) Pichia pastoris regulates its gene-specific response to different carbon sources at the transcriptional, rather than the translational, level. BMC Genomics 16:1.
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Thomas Vogl & Anton Glieder. (2013) Regulation of Pichia pastoris promoters and its consequences for protein production. New Biotechnology 30:4, pages 385-404.
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Yang Yang, Fangfang Fan, Rui Zhuo, Fuying Ma, Yangmin Gong, Xia Wan, Mulan Jiang & Xiaoyu Zhang. (2012) Expression of the Laccase Gene from a White Rot Fungus in Pichia pastoris Can Enhance the Resistance of This Yeast to H 2 O 2 -Mediated Oxidative Stress by Stimulating the Glutathione-Based Antioxidative System . Applied and Environmental Microbiology 78:16, pages 5845-5854.
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Zhenyu Zhai, Hiroya Yurimoto & Yasuyoshi Sakai. (2012) Molecular characterization of Candida boidinii MIG1 and its role in the regulation of methanol‐inducible gene expression . Yeast 29:7, pages 293-301.
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Leona Paulová, Petr Hyka, Barbora Branská, Karel Melzoch & Karin Kovar. (2012) Use of a mixture of glucose and methanol as substrates for the production of recombinant trypsinogen in continuous cultures with Pichia pastoris Mut+. Journal of Biotechnology 157:1, pages 180-188.
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Hiroya Yurimoto, Masahide Oku & Yasuyoshi Sakai. (2011) Yeast Methylotrophy: Metabolism, Gene Regulation and Peroxisome Homeostasis. International Journal of Microbiology 2011, pages 1-8.
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Martin Dragosits, Diethard Mattanovich & Brigitte Gasser. 2011. The Unfolded Protein Response and Cellular Stress, Part A. The Unfolded Protein Response and Cellular Stress, Part A 165 188 .
. (2009) Current awareness on yeast. Yeast 26:12, pages 693-698.
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