「総説 (review), 著書」
棟方涼介、矢崎一史、 プロポリスの生理活性物質アルテピリンCの酵母内再構築 バイオサイエンスとインダストリー、 78 (3), 230-231 (2020)
Seki H., Tamura
K., and Muranaka T. Plant-derived isoprenoid sweeteners: recent progress in biosynthetic gene discovery
and perspectives on microbial production.Bioscience, Biotechnology, and Biochemistry 82 (6), 927-934 (2018)
Shindo K. A modern
purification method for volatile sesquiterpenes produced by recombinant
Escherichia coli carrying
terpene synthase genes.Bioscience, Biotechnology, and Biochemistry 82 (6), 935-939 (2018)
Kawakami N. and
Fujisaki S. Undecaprenyl phosphate metabolism in Gram-negative and Gram-positive bacteria. Bioscience, Biotechnology, and Biochemistry 82 (6), 940-946 (2018)
Sagami H.,
Swiezewska E., and Shidoji Y. The history and recent advances in research of polyprenol and its derivatives.Bioscience, Biotechnology, and Biochemistry 82 (6), 947-955 (2018)
Ho. H.-J., Shirakawa H., Giriwono P.E., Ito A., and Komai M. A novel function of geranylgeraniol in regulating testosterone production. Bioscience,
Biotechnology, and Biochemistry 82 (6), 956-962 (2018)
Kawamukai M. Biosynthesis and applications of prenylquinones. Bioscience, Biotechnology, and Biochemistry 82 (6), 963-977 (2018)
戒能智宏, 川向誠 コエンザイムQ10増産技術の開発,バイオインダストリー 34巻5月号 63-71(2017).
Diterpenoids:Types, Functions and Research Yoshihiro Shidoji and Hiroshi Sagami (担当:分担執筆, 範囲 Chapter4: Biology of Acyclic Diterpenoids with Special Attention to Geranylgeranoic Acid and its 2,3-Dihydro derivatives)
Koji Miyamoto (担当:分担執筆, 範囲:Chapter 5: Diterpenoids in Rice: Functions, Biosynthesis, and their Regulation) (Nova Science Publishers 2017年2月 ISBN: 978-1-53610-671-8)
上田大次郎、佐藤努、龍涎香に関する研究(龍涎香の主成分アンブレインや香り成分はイソプレノイド)、香料、273号53-59、2017年
Yazaki K, Arimura GI, Ohnishi T. "Hidden" Terpenoids in Plants: Their Biosynthesis, Localisation and Ecological Roles. Plant Cell Physiol. 2017 Aug 29. doi: 10.1093/pcp/pcx123.
「論文」
Yamamoto, H., Tsukahara, M., Yamano, Y., Wada, A., Yazaki, K., Alcohol dehydrogenase activity converts 3"-hydroxygeranylhydroquinone to an aldehyde intermediate for shikonin and benzoquinone derivatives in Lithospermum erythrorhizon, Plant Cell Physiol., 61(10), 1798-1806 (2020).
Izuishi, Y., Isaka, N., Li, H., Nakanishi, K., Kageyama, J., Ishikawa, K., Shimada, T., Masuta, C., Yoshikawa, N., Kusano, H., Yazaki, K., Apple latent spherical virus (ALSV)-induced gene silencing in a medicinal plant, Lithospermum erythrorhizon, Sci. Rep., 10 (1), Article 13555 (2020).
Oshikiri, H., Watanabe, B., Yamamoto, H., Yazaki, K., Takanashi, K., Two BAHD acyltransferases catalyze the last step in the shikonin/alkannin biosynthetic pathway, Plant Physiol., 184 (2), 753-761 (2020).
Ueoka, H., Sasaki, K., Miyawaki, T., Ichino, T., Tatsumi, K., Suzuki, S., Yamamoto, H., Sakurai, N., Suzuki, H., Shibata, D., Yazaki, K., A cytosol-localized geranyl diphosphate synthase from Lithospermum erythrorhizon and its molecular evolution, Plant Physiol., 182 (4), 1933-1945 (2020).
Tatsumi, K., Ichino, T., Onishi, N., Shimomura, K., Yazaki, K., Highly efficient method of Lithospermum erythrorhizon transformation using domestic Rhizobium rhizogenes strain A13, Plant Biotech., 37 (1), 39-46 (2020).
Munakata, R., Kitajima, S., Nuttens, A., Tatsumi, K., Takemura, T., Ichino, T., Galati, G., Vautrin, S., Bergès, H., Grosjean, J., Bourgaud, F., Sugiyama, A., Hehn, A. Yazaki, K., Convergent evolution of the UbiA prenyltransferase family underlies the independent acquisition of furanocoumarins in plants, New Phytol., 225 (5), 2166-2182 (2020).
Mao L., Kawaide H., Higuchi T., Chen M., Miyamoto K., Hirata Y., Kimura H., Miyazaki S., Teruya M., Fujiwara K., Tomita K., Yamane H., Hayashi K. I., Nojiri H., Jia L., Qiu J., Ye C., Timko M. P., Fan L., Okada K., Genomic evidence for convergent evolution of gene clusters for momilactone biosynthesis in land plants. Proc. Natl. Acad. Sci. U. S. A., 117(22), 12472-12480 (2020)
Yamabe Y., Kawagoe Y., Okuno K., Inoue M., Chikaoka K., Ueda D., Tajima Y., Yamada T.D., Kakihara Y., Hara T., Sato T., Construction of an artificial system for ambrein biosynthesis and investigation of some biological activities of ambrein. Sci. Rep., 10, 19643, (2020)
Abe T., Ozaki S., Ueda D., Sato T. Insight into Isoprenoid Biosynthesis by Functional Analysis of Isoprenyl Diphosphate Synthases from Mycobacterium vanbaalenii and Mycobacterium tuberculosis. Chembiochem, 21, 2931-2938, (2020)
Stepanova, R., Inagi, H., Sugawara, K., Asada, K., Nishi, T., Ueda, D., Yasuno, Y., Shinada, T., Miki, K., Fujihashi, M., Sato, T., Characterization of Class IB terpene synthase: the first crystal structure bound with substrate surrogate. ACS Chem. Biol., 15, 1517-1525 (2020)
Ikuhisa Nishida, Ryota Yanai, Yasuhiro Matsuo, Tomohiro Kaino, Makoto Kawamukai,Benzoic acid inhibits Coenzyme Q biosynthesis in Schizosaccharomyces pombe PLoS One.15(11):e0242616. (2020)
Munakata, R., Takemura, T., Tatsumi, K., Moriyoshi, E., Yanagihara, K., Sugiyama, A., Suzuki, H., Seki, H., Muranaka, T., Kawano, N., Yoshimatsu, K., Kawahara, N., Yamaura, T., Grosjean J., Bourgaud, F., Hehn, A., Yazaki, K., Isolation of Artemisia capillaris membrane-bound di-prenyltransferase for phenylpropanoids and redesign of artepillin C in yeast, Commun. Biol., 2, Article 384 (2019).
Kusano, H., Li, H., Minami, H., Kato, Y., Tabata, H., Yazaki, K., Evolutionary developments in plant specialized metabolism, exemplified by two transferase families, Frontiers Plant Sci. 10, Article 794, (2019)
Ikuhisa Nishida, Kazumasa Yokomi, Kouji Hosono, Kazuhiro Hayashi, Yauhiro Matsuo, Tomohiro Kaino, Makoto Kawamukai. CoQ10 production in Schizosaccharomyces pombe is increased by reduction of glucose leveles or deletion of pka1. Appl. Microbiol. Biotechnol 103:4899-4915 (2019)
Basyuni M., Wati R., Sagami H., Sumardi, Baba S., and Oku H. Diversity and abundance of polyisoprenoid composition in plant species from North Sumatra. Biodiversitas 19(1), 1-11(2018).
Shindo K.,Hattan J., Kato M., Sato M., Ito T., Shibuya Y., Watanabe A., SugiyamaM., Nakamura Y., and Misawa N. Purification and structural analysis ofvolatile sesquiterpenes produced by Escherichia coli carrying unidentified terpene synthase genes from edible plants of the family
Araliaceae. Bioscience,Biotechnology, and Biochemistry 82 (6), 978-985
(2018).
Fukuda Y., Sato S., Ogura Y., and Kuwahara S. Two approaches to 14,15-secoergostane intermediates for the synthesis of strophasterols. Bioscience Biotechnology, and Biochemistry 82 (6), 986-992 (2018).
Hayashi Y., Ito T., Yoshimura T., and Hemmi H. Utilization of an intermediate of the methylerythritol phosphate pathway, (E)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate, as the prenyl donor substrate for various prenyltransferases. Bioscience, Biotechnology, and Biochemistry 82 (6), 993-1002 (2018).
Takahashi H., Aihara Y., Ogawa Y., Murata Y., Nakajima K., Iida M., Shirai M., and Fujisaki S. Suppression of phenotype of Escherichia coli mutant defective in farnesyl diphosphate synthase by overexpression of gene for octaprenyl diphosphate synthase. Bioscience,
Biotechnology, and Biochemistry 82 (6), 1003-1010 (2018).
Yamashita S., Mizuno M., Hayashi H., Yamaguchi H., Miyagi-Inoue Y., Fushihara K., Koyama T., Nakayama T., and Takahashi S. Purification and characterization of small and large rubber particles from Hevea brasiliensis. Bioscience, Biotechnology, and Biochemistry 82 (6), 1011-1020 (2018).
Ye Z., Yamazaki K., Minoda H., Miyamoto K., Miyazaki S., Kawaide H., Yajima A., Nojiri H., Yamane H., and Okada K. In planta functions of cytochrome P450 monooxygenase genes in the phytocassane biosynthetic gene cluster on rice chromosome 2. Bioscience, Biotechnology, and Biochemistry 82 (6), 1021-1030 (2018).
Kaino T., Tonoko K., Mochizuki S., Takashima Y., and Kawamukai M. Schizosaccharomyces japonicus has low levels of CoQ10 synthesis, respiration deficiency, and efficient ethanol production. Bioscience, Biotechnology, and Biochemistry 82 (6), 1031-1042 (2018).
Fukaya Y., Takemura M., Koyanagi T., Maoka T., Shindo K., and Misawa N. Structural and functional analysis of the carotenoid biosynthesis genes of a Pseudomonas strain isolated from the excrement of Autumn Darter. Bioscience, Biotechnology, and Biochemistry 82 (6), 1043-1052 (2018).
Hagi T., Kobayashi M., and Nomura M. Whole-transcriptome analysis of oxidative stress response genes in carotenoid-producing Enterococcus gilvus.
Bioscience, Biotechnology, and Biochemistry 82 (6), 1053-1057 (2018).
Tashiro M., Ono K., Kimura Y., Kawai-Noma S., Saito K., and Umeno D. Tweezing the cofactor preference of gymnosperm pinene synthase. Bioscience, Biotechnology, and Biochemistry 82 (6), 1058-1061 (2018).
Moriyama D., Kaino T., Yajima K., Yanai R., Ikenaka Y., Hasegawa J., Washida M.,Nanba H., and Kawamukai K. Cloning and characterization of decaprenyl dihosphate synthase from three different fungi. Appl. Microbiol. Biotechnol. 101(4), 1559-1571(Feb.2017).
Ee Sin Chen, Sean Qiu En Lee, Tsu So Tan, and Kawamukai M. Cellular Factories for Coenzyme Q10 production. Microbial Cell Factories 16(1),39(Mar.2017)
Basyuni M., Sagami H., Baba S., and Oku H. Distribution, occurrence, and cluster analysis of new polyprenyl acetones and other polyisoprenoids from North Sumatran mangroves Dendrobiology 78, 18-31(2017).
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