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Bioscience, Biotechnology, and Biochemistry Volume 70, 2006 - Issue 10
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Original Articles

High Shikimate Production from Quinate with Two Enzymatic Systems of Acetic Acid Bacteria

Osao ADACHIDepartment of Biological Chemistry, Faculty of Agriculture, Yamaguchi University
,
Yoshitaka ANODepartment of Biological Chemistry, Faculty of Agriculture, Yamaguchi University
,
Hirohide TOYAMADepartment of Biological Chemistry, Faculty of Agriculture, Yamaguchi University
&
Kazunobu MATSUSHITADepartment of Biological Chemistry, Faculty of Agriculture, Yamaguchi University
Pages 2579-2582 | Received 10 May 2006, Accepted 04 Sep 2006, Published online: 22 May 2014

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Dulce Catalina Díaz Quiroz, Susy Beatriz Carmona, Francisco Bolívar & Adelfo Escalante. (2014) Current perspectives on applications of shikimic and aminoshikimic acids in pharmaceutical chemistry. Research and Reports in Medicinal Chemistry 4, pages 35-46.
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Kui Zeng, Karin Emmons Thompson, Chaela S. Presley, Duane D. Miller & Charles R. Yates. (2011) Preclinical pharmacokinetics of the radiomitigator KZ-41 in rats. Xenobiotica 41:11, pages 1006-1012.
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Osao ADACHI, Yoshitaka ANO, Emiko SHINAGAWA, Toshiharu YAKUSHI & Kazunobu MATSUSHITA. (2010) Conversion of Quinate to 3-Dehydroshikimate by Ca-Alginate-Immobilized Membrane of Gluconobacter oxydans IFO 3244 and Subsequent Asymmetric Reduction of 3-Dehydroshikimate to Shikimate by Immobilized Cytoplasmic NADP-Shikimate Dehydrogenase. Bioscience, Biotechnology, and Biochemistry 74:12, pages 2438-2444.
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Emiko SHINAGAWA, Osao ADACHI, Yoshitaka ANO, Toshiharu YAKUSHI & Kazunobu MATSUSHITA. (2010) Purification and Characterization of Membrane-Bound 3-Dehydroshikimate Dehydratase from Gluconobacter oxydans IFO 3244, A New Enzyme Catalyzing Extracellular Protocatechuate Formation. Bioscience, Biotechnology, and Biochemistry 74:5, pages 1084-1088.
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Osao ADACHI, Yoshitaka ANO, Hirohide TOYAMA & Kazunobu MATSUSHITA. (2008) A Novel 3-Dehydroquinate Dehydratase Catalyzing Extracellular Formation of 3-Dehydroshikimate by Oxidative Fermentation of Gluconobacter oxydans IFO 3244. Bioscience, Biotechnology, and Biochemistry 72:6, pages 1475-1482.
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Peter Raspor & Dušan Goranovič. (2008) Biotechnological Applications of Acetic Acid Bacteria. Critical Reviews in Biotechnology 28:2, pages 101-124.
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Cassandra De Muynck, Catarina S. S. Pereira, Myriam Naessens, Sofie Parmentier, Wim Soetaert & Erick J. Vandamme. (2007) The Genus Gluconobacter Oxydans: Comprehensive Overview of Biochemistry and Biotechnological Applications. Critical Reviews in Biotechnology 27:3, pages 147-171.
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Osao ADACHI, Yoshitaka ANO, Hirohide TOYAMA & Kazunobu MATSUSHITA. (2006) Enzymatic Preparation of Metabolic Intermediates, 3-Dehydroquinate and 3-Dehydroshikimate, in the Shikimate Pathway. Bioscience, Biotechnology, and Biochemistry 70:12, pages 3081-3083.
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Osao ADACHI, Yoshitaka ANO, Hirohide TOYAMA & Kazunobu MATSUSHITA. (2006) Purification and Properties of NADP-Dependent Shikimate Dehydrogenase from Gluconobacter oxydans IFO 3244 and Its Application to Enzymatic Shikimate Production. Bioscience, Biotechnology, and Biochemistry 70:11, pages 2786-2789.
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Articles from other publishers (34)

Qiang Ding & Chao Ye. (2023) Microbial engineering for shikimate biosynthesis. Enzyme and Microbial Technology 170, pages 110306.
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Ana Paula Butiuk, María Alicia Martos & Roque Alberto Hours. (2023) Mycelium-bound chlorogenate hydrolase of Aspergillus niger AKU 3302 as a stable immobilized biocatalyst. Journal of Bioscience and Bioengineering 136:2, pages 94-101.
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Yating He, Zhenzhen Xie, Huan Zhang, Wolfgang Liebl, Hirohide Toyama & Fusheng Chen. (2022) Oxidative Fermentation of Acetic Acid Bacteria and Its Products. Frontiers in Microbiology 13.
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Xiaoshuang Wang, Fengli Wu, Dan Zhou, Guotian Song, Wujiu Chen, Cuiying Zhang & Qinhong Wang. (2022) Cofactor Self-Sufficient Whole-Cell Biocatalysts for the Relay-Race Synthesis of Shikimic Acid. Fermentation 8:5, pages 229.
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Ana P. Butiuk, Silvana A. Maidana, Osao Adachi, Yoshihiko Akakabe, María A. Martos & Roque A. Hours. (2021) Optimization and modeling of the chlorogenic acid extraction from a residue of yerba mate processing. Journal of Applied Research on Medicinal and Aromatic Plants 25, pages 100329.
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Kentaro Nakamura, Kakeru Nagaki, Minenosuke Matsutani, Osao Adachi, Naoya Kataoka, Yoshitaka Ano, Gunjana Theeragool, Kazunobu Matsushita & Toshiharu Yakushi. (2021) Relocation of dehydroquinate dehydratase to the periplasmic space improves dehydroshikimate production with Gluconobacter oxydans strain NBRC3244. Applied Microbiology and Biotechnology 105:14-15, pages 5883-5894.
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Sjoerd Slagman & Wolf-Dieter Fessner. (2021) Biocatalytic routes to anti-viral agents and their synthetic intermediates. Chemical Society Reviews 50:3, pages 1968-2009.
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Priyanka Singh, Ena Gupta, Neha Mishra & Pragya Mishra. 2020. Phytochemicals as Lead Compounds for New Drug Discovery. Phytochemicals as Lead Compounds for New Drug Discovery 245 256 .
P. Tripathi. 2019. High Value Fermentation Products. High Value Fermentation Products 253 279 .
Nuno R. Candeias, Benedicta Assoah & Svilen P. Simeonov. (2018) Production and Synthetic Modifications of Shikimic Acid. Chemical Reviews 118:20, pages 10458-10550.
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Toshiharu Yakushi, Kazutaka Komatsu, Minenosuke Matsutani, Naoya Kataoka, Alisa S. Vangnai, Hirohide Toyama, Osao Adachi & Kazunobu Matsushita. (2018) Improved heterologous expression of the membrane-bound quinoprotein quinate dehydrogenase from Gluconobacter oxydans. Protein Expression and Purification 145, pages 100-107.
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Ana P. Butiuk, Silvana A. Maidana, María A. Martos, Yoshihiko Akakabe, Osao Adachi & Roque A. Hours. (2018) Characterization and application of fungal chlorogenate hydrolase to enzymatic breaking down of chlorogenate from yerba mate. Biocatalysis and Agricultural Biotechnology 14, pages 395-401.
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Carla C.C.R. de Carvalho & Manuela M.R. da Fonseca. 2017. Comprehensive Biotechnology. Comprehensive Biotechnology 574 585 .
Saptarshi Ghosh, Utpal Mohan & Uttam Chand Banerjee. (2016) Studies on the production of shikimic acid using the aroK knockout strain of Bacillus megaterium. World Journal of Microbiology and Biotechnology 32:8.
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Pengfei Gu, Tianyuan Su, Qian Wang, Quanfeng Liang & Qingsheng Qi. (2016) Tunable switch mediated shikimate biosynthesis in an engineered non-auxotrophic Escherichia coli. Scientific Reports 6:1.
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Ana P. Butiuk, María A. Martos, Osao Adachi & Roque A. Hours. (2016) Study of the chlorogenic acid content in yerba mate (Ilex paraguariensis St. Hil.): Effect of plant fraction, processing step and harvesting season. Journal of Applied Research on Medicinal and Aromatic Plants 3:1, pages 27-33.
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Osao Adachi & Toshiharu Yakushi. 2016. Acetic Acid Bacteria. Acetic Acid Bacteria 273 297 .
Ana P. Butiuk, Osao Adachi & Roque A. Hours. (2015) Yerba mate as a novel inducer for fungal chlorogenate hydrolase production. Biocatalysis and Agricultural Biotechnology 4:3, pages 327-334.
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Yuri Ishii, Naoki Akasaka, Itsuko Goda, Hisao Sakoda & Shinsuke Fujiwara. (2015) Effective Trapping of Fruit Flies with Cultures of Metabolically Modified Acetic Acid Bacteria. Applied and Environmental Microbiology 81:7, pages 2265-2273.
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James Peek & Dinesh Christendat. (2015) The shikimate dehydrogenase family: Functional diversity within a conserved structural and mechanistic framework. Archives of Biochemistry and Biophysics 566, pages 85-99.
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Saptarshi Ghosh, Harish Pawar, Omkar Pai & Uttam Chand Banerjee. (2014) Microbial transformation of quinic acid to shikimic acid by Bacillus megaterium. Bioresources and Bioprocessing 1:1.
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Yang Yang, Chao Yuan, Jie Dou, Xiaorong Han, Hui Wang, Hongqing Fang & Changlin Zhou. (2014) Recombinant expression of glpK and glpD genes improves the accumulation of shikimic acid in E. coli grown on glycerol. World Journal of Microbiology and Biotechnology 30:12, pages 3263-3272.
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Shihomi Nishikura-Imamura, Minenosuke Matsutani, Chayatip Insomphun, Alisa S. Vangnai, Hirohide Toyama, Toshiharu Yakushi, Tetsuya Abe, Osao Adachi & Kazunobu Matsushita. (2013) Overexpression of a type II 3-dehydroquinate dehydratase enhances the biotransformation of quinate to 3-dehydroshikimate in Gluconobacter oxydans. Applied Microbiology and Biotechnology 98:7, pages 2955-2963.
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Garima Rawat, Priyanka Tripathi & R. K. Saxena. (2013) Expanding horizons of shikimic acid. Applied Microbiology and Biotechnology 97:10, pages 4277-4287.
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Dietmar Schomburg & Ida Schomburg. 2013. Class 1 Oxidoreductases. Class 1 Oxidoreductases 155 159 .
Saptarshi Ghosh, Yusuf Chisti & Uttam C. Banerjee. (2012) Production of shikimic acid. Biotechnology Advances 30:6, pages 1425-1431.
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Kai Chen, Jie Dou, Shirui Tang, Yishun Yang, Hui Wang, Hongqing Fang & Changlin Zhou. (2012) Deletion of the aroK gene is essential for high shikimic acid accumulation through the shikimate pathway in E. coli. Bioresource Technology 119, pages 141-147.
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Denis V. Bochkov, Sergey V. Sysolyatin, Alexander I. Kalashnikov & Irina A. Surmacheva. (2011) Shikimic acid: review of its analytical, isolation, and purification techniques from plant and microbial sources. Journal of Chemical Biology 5:1, pages 5-17.
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C.C.C.R. de Carvalho & M.M.R. da Fonseca. 2011. Comprehensive Biotechnology. Comprehensive Biotechnology 451 460 .
A. S. Vangnai, W. Promden, W. De-Eknamkul, K. Matsushita & H. Toyama. (2010) Molecular characterization and heterologous expression of quinate dehydrogenase gene from Gluconobacter oxydans IFO3244. Biochemistry (Moscow) 75:4, pages 452-459.
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Manabu Hamada, Yoshikazu Inami, Yasuhito Nagai, Toshinori Higashi, Mitsuru Shoji, Seiichiro Ogawa, Kazuo Umezawa & Takeshi Sugai. (2009) Enzyme-catalyzed resolution of 3,8-dioxatricyclo[3.2.1.02,4]octane-6-carboxylic esters and the application to the synthesis of 3-epishikimic acid. Tetrahedron: Asymmetry 20:18, pages 2105-2111.
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Osao Adachi, Yoshitaka Ano, Yoshihiko Akakabe, Emiko Shinagawa & Kazunobu Matsushita. (2008) Coffee pulp koji of Aspergillus sojae as stable immobilized catalyst of chlorogenate hydrolase. Applied Microbiology and Biotechnology 81:1, pages 143-151.
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Osao Adachi, Yoshitaka Ano, Hirohide Toyama & Kazunobu Matsushita. 2007. Modern Biooxidation. Modern Biooxidation 1 41 .

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