発表論文リスト

学術論文

1. A cellulose-binding domain specific for native crystalline cellulose in lytic polysaccharide monooxygenase from the brown-rot fungus Gloeophyllum trabeum. Yuka Kojima , Naoki Sunagawa, Satomi Tagawa, Tomohiro Hatano, Moeri Aoki, Tatsuki Kurei, Yoshiki Horikawa, Masahisa Wada, Ryo Funada, Kiyohiko Igarashi, Makoto Yoshida*. Carbohydrate Polymers (2025) 347: 122651

2. Characterization of fungal carbonyl sulfide hydrolase belonging to clade D β-carbonic anhydrase. Ryuka Iizuka, Takahiro Ogawa, Rikako Tsukida, Keiichi Noguchi, David Hibbett, Yoko Katayama, Makoto Yoshida*. FEBS Letters (2025) 599(8):1146-1158 doi:10.1002/1873-3468.15098

3. Crystal structure of CcGH131B, a protein belonging to glycoside hydrolase family 131 from the basidiomycete Coprinopsis cinerea. Yuta Shiojima, Ryotaro Sano, Takuma Kozono, Atsushi Nishikawa, Yuka Kojima, Makoto Yoshida, Naoki Sunagawa, Kiyohiko Igarashi, Takashi Tonozuka. Journal of Applied Glycoscience (2025) 72(2):7202104 

4. 真菌類由来揮発性有機化合物の木材腐朽菌に対する生物活性に関する研究. 堀川 翔子，飯塚 瑠翔，小沼 ルミ，吉田 誠*. 木材保存 (2025) In press

5. Micromorphological features of brown rotted wood revealed by broad argon ion beam milling. Rikako Tsukida, Tomohiro Hatano, Yuka Kojima, Satoshi Nakaba, Yoshiki Horikawa, Ryo Funada, Barry Goodell, Makoto Yoshida*. Scientific Reports (2024) 14:32003

6. Sulfur assimilation using gaseous carbonyl sulfide by the soil fungus Trichoderma harzianum. Ryuka Iizuka, Shohei Hattori, Yusuke Kosaka, Yoshihito Masaki, Yusuke Kawano, Iwao Ohtsu, David Hibbett, Yoko Katayama, Makoto Yoshida*, Applied and Environmental Microbiology (2024) 90(2): e02015-23

7. Fungal invasion of cellulosic skeletal substrates with a hierarchical structure of wood. Masaumi Miyabayashi, Tatsuki Kurei, Rikako Tsukida, Makoto Yoshida, Yoshiki Horikawa, International Biodeterioration & Biodegradation (2024) 194: 105826

8. Direct Bioelectrocatalysis via Interdomain Electron Transfer of Fungal Pyrroloquinoline Quinone-dependent Pyranose Dehydrogenase Depending on the Alkyl Chain Lengths of Self-assembled Monolayers. Kota TAKEDA, Tatsuki MINAMI, Makoto YOSHIDA, Kiyohiko IGARASHI, Nobuhumi NAKAMURA, Electrochemistry (2024) 92(2): 022011

9. Gloeophyllum trabeum由来木材細胞壁多糖類分解酵素の遺伝子発現挙動に各種炭素源が与える影響.  青木萌里、飯塚瑠翔、小嶋由香、吉田　誠*, 木材保存 (2024) 50(1): 2-14

10. α-D-(1→3)-graft-(1→6)-glucan: Comb-like polysaccharide synthesized in vitro with α-1,3/1,6-glucosyltransferase L from Streptococcus salivarius.  Ryosuke Kusumi, Shinichi Asai, Qinfeng He, Kayoko Kobayashi, Satoshi Kimura, Makoto Yoshida, Masahisa Wada, Carbohydrate Research (2023) 534:108969

11. Characterization of an α-L-arabinofuranosidase GH51 from the brown-rot fungus Gloeophyllum trabeum.  Rikako Tsukida, Makoto Yoshida, Satoshi Kaneko, Journal of Applied Glycoscience (2023) 70 (1): 9-14 

12. Structural basis for proteolytic processing of Aspergillus sojae ?-glucosidase L with strong transglucosylation activity. Ding, Yifu; Oyagi, Ayako; Miyasaka, Yuki; Kozono, Takuma; Sasaki, Nobumitsu; Kojima, Yuka; Yoshida, Makoto; Matsumoto, Yuji; Yasutake, Nozomu; Nishikawa, Atsushi; Tonozuka, Takashi, Journal of Structural Biology (2022) 214(3):107874

13. 木材腐朽性担子菌により腐朽された木材が有する鉄還元能の調査. 近藤里沙子，堀川祥生，赤井伸行，安藤恵介，吉田　誠*, 木材保存 (2022) 48(1):8-17

14. Morphology and color change of pulp fiber sheet in seawater and soil. Hosaka, A., Yoshida, M., Horikawa, Y., and Kose, R.
    BioResources (2021) 16(4):6943-6953

15. Fungal Carbonyl Sulfide Hydrolase of Trichoderma harzianum Strain THIF08 and Its Relationship with Clade D β-Carbonic Anhydrases. Yoshihito Masaki, Ryuka Iizuka, Hiromi Kato, Yuka Kojima, Takahiro Ogawa, Makoto Yoshida, Yasuhiko Matsushita, Yoko Katayama, Microbes and Environments (2021) 36(2):ME20058

16. Microbiological community structure on logs used for groynes in a riverbank system. Ishiyama, Nanako; Horisawa, Sakae; Hara, Tadashi; Yoshida, Makoto; Momohara, Ikuo, Journal of Wood Science (2021) 67:11

17. Transcriptome analysis of the brown rot fungus Gloeophyllum trabeum during lignocellulose degradation. Umezawa, Kiwamu; Niikura, Mai; Kojima, Yuka; Goodell, Barry; Yoshida, Makoto, PLOS ONE (2020) 15(12):e0243985

18. In Vitro Synthesis of Branchless Linear (1 -> 6)-alpha-D-Glucan by Glucosyltransferase K: Mechanical and Swelling Properties of Its Hydrogels Crosslinked with Diglycidyl Ethers. He, Qinfeng; Kobayashi, Kayoko; Kusumi, Ryosuke; Kimura, Satoshi; Enomoto, Yukiko; Yoshida, Makoto; Kim, Ung-Jin; Wada, Masahisa, ACS OMEGA (2020) 5(48):31272-31280 

19. Bioelectrocatalysis based on direct electron transfer of fungal pyrroloquinoline quinone-dependent dehydrogenase lacking the cytochrome domain. Takeda, Kouta; Kusuoka, Ryo; Birrell, James A.; Yoshida, Makoto; Igarashi, Kiyohiko; Nakamura, Nobuhumi
    ELECTROCHIMICA ACTA (2020)  359:136982 

20. A comparison of lignin-degrading enzyme activities in forest floor layers across a global climatic gradient. Kazumichi Fujii, Yuji Nakada, Kiwamu Umezawa, Makoto Yoshida, Makoto Shibata, Chie Hayakawa, Yoshiyuki Inagaki, Takashi Kosaki and Ryan Hangs
    Soil Ecology Letters (2020) 2:281-294

21. Nanostructural Analysis of Enzymatic and Non-enzymatic Brown Rot Fungal Deconstruction of the Lignocellulose Cell Wall. Zhu, Yuan; Plaza, Nayomi; Kojima, Yuka; Yoshida, Makoto; Zhang, Jiwei; Jellison, Jody; Pingali, Sai Venkatesh; O'Neill, Hugh; Goodell, Barry
    FRONTIERS IN MICROBIOLOGY (2020) 11:1389

22. 褐色腐朽菌が木材腐朽過程で放散する揮発性有機化合物の多様性. 堀川 翔子, 近藤 里沙子, 梅澤 究, 佐々木 直里, 小沼 ルミ, 安藤 恵介, 吉田 誠*, 木材保存 (2020) 46(3):137-148

23. Crystal Structure of the Catalytic and Cytochrome b Domains in a Eukaryotic Pyrroloquinoline Quinone-Dependent Dehydrogenase. Kouta Takeda, Takuya Ishida, Makoto Yoshida, Masahiro Samejima, Hiroyuki Ohno, Kiyohiko Igarashi, Nobuhumi Nakamura, Applied and Environtal Microbiology (2019) 85(24):e01692-19

24. Polyporalesに属する木材腐朽菌により腐朽された材のX線回折法およびフーリエ変換赤外分光法による分析. 近藤里沙子，堀川祥生，半　智史，安藤恵介，吉田　誠*, 木材保存 (2019) 45(6):268-279

25. Multiple iron reduction by methoxylated phenolic lignin structures and the generation of reactive oxygen species by lignocellulose surfaces. Tamaru, Yoshiaki; Yoshida, Makoto; Eltis, Lindsay D.; Goodell, Barry, INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES (2019) 128:340-346

26. Control of the Nitrogen Isotope Composition of the Fungal Biomass: Evidence of Microbial Nitrogen Use Efficiency. Shinoda, Kazuki; Yano, Midori; Yoh, Muneoki; Yoshida, Makoto; Makabe, Akiko; Yamagata, Yohei; Houlton, Benjamin Z.; Koba, Keisuke, MICROBES AND ENVIRONMENTS (2019) 34(1):5-12

27. Highly abundant acidophilic ammonia-oxidizing archaea causes high rates of nitrification and nitrate leaching in nitrogen-saturated forest soils. Isobe, Kazuo; Ikutani, Junko; Fang, Yunting; Yoh, Muneoki; Mo, Jiangming; Suwa, Yuichi; Yoshida, Makoto; Senoo, Keishi; Otsuka, Shigeto; Koba, Keisuke, SOIL BIOLOGY & BIOCHEMISTRY (2018) 122:220-227

28. Characterization of an aryl-alcohol oxidase from the plant saprophytic basidiomycete Coprinopsis cinerea with broad substrate specificity against aromatic alcohols. Tamaru, Yoshiaki; Umezawa, Kiwamu; Yoshida, Makoto, BIOTECHNOLOGY LETTERS (2018) 40(7):1077-1086

29. The Pyrroloquinoline-Quinone-Dependent Pyranose Dehydrogenase from Coprinopsis cinerea Drives Lytic Polysaccharide Monooxygenase Action. Varnai, Aniko; Umezawa, Kiwamu; Yoshida, Makoto; Eijsink, Vincent G. H., APPLIED AND ENVIRONMENTAL MICROBIOLOGY (2018) 84(11):e00156-18

30. Characterization of crystalline linear (1→3)-α-D-glucan synthesized in vitro. Kayoko Kobayashi, Takuto Hasegawa, Ryosuke Kusumi, Satoshi Kimura, Makoto Yoshida, Junji Sugiyama, Masahisa Wada, Carbohydrate Polymers (2017) 177:341-346

31. Diversity and community structure of wood-inhabiting fungi found in Japanese wooden houses analyzed by the next-generation sequencing. Horisawa Sakae, Yoshida Makoto, Umezawa Kiwamu, Wada Tomoko, Abe Hisashi, Doi Shuichi, Samejima Masahiro, Momohara Ikuo, Journal of Wood Science (2017) 63(4):369-378

32. Modification of the nanostructure of lignocellulose cell walls via a non-enzymatic lignocellulose deconstruction system in brown rot wood-decay fungi. Goodell Barry, Zhu Yuan, Kim Seong, Kafle Kabindra, Eastwood Daniel, Daniel Geoffrey, Jellison Jody, Yoshida Makoto, Groom Leslie, Pingali Sai Venkatesh, O'Neill Hugh, Biotechnology for Biofuels (2017) 10:179

33. Structure of the Catalytic Domain of alpha-L-Arabinofuranosidase from Coprinopsis cinerea, CcAbf62A, Provides Insights into Structure-Function Relationships in Glycoside Hydrolase Family 62. Tonozuka Takashi, Tanaka Yutaro, Okuyama Shunsaku, Miyazaki Takatsugu, Nishikawa Atsushi, Yoshida Makoto, Applied Biochemistry and Biotechnology 181(2): 511-525

34. A Lytic Polysaccharide Monooxygenase with Broad Xyloglucan Specificity from the Brown-Rot Fungus Gloeophyllum trabeum and Its Action on Cellulose-Xyloglucan Complexes. Yuka Kojima, Anikó Várnai, Takuya Ishida, Naoki Sunagawa, Dejan M. Petrovic, Kiyohiko Igarashi, Jody Jellison, Barry Goodell, Gry Alfredsen, Bjørge Westereng, Vincent G. H. Eijsink, Makoto Yoshida, Applied and Environmental Microbiology (2016) 82(22):6557-6572

35. pH-dependent electron transfer reaction and direct bioelectrocatalysis of the quinohemoprotein pyranose dehydrogenase. Kouta Takeda, Hirotoshi Matsumura, Takuya Ishida, Makoto Yoshida, Kiyohiko Igarashi, Masahiro Samejima, Hiroyuki Ohno, Nobuhumi Nakamura, Biochemical and Biophysical Research Communications (2016) 477(3):369-373

36. 竹材オガコによるヒラタケ菌床栽培. 高畠幸司、中田裕治、吉田　誠, 日本きのこ学会誌 (2016) 24(2):71-76

37. In vitro synthesis of linear α-1,3-glucan and chemical modification to ester derivatives exhibiting outstanding thermal properties. Sakarin Puanglek, Satoshi Kimura, Yukiko Enomoto-Rogers, Taizo Kabe, Makoto Yoshida, Masahisa Wada, and Tadahisa Iwata, Scientific reports (2016) 6:30479

38. 福島県二本松市東部の水田生態系における放射性セシウム分布 ~ 2013 年の調査~. 渡邉 泉、青山 光、渡井 千絵、尾崎 宏和、 林谷 秀樹、五味 高志、吉田 誠、横山 正, 環境放射能除染学会誌 (2015) 3(4):207-214

39. Investigating oxalate biosynthesis in the wood-decaying fungus Gloeophyllum trabeum using 13C metabolic flux analysis. Liangpeng Zhuang, Weihua Guo, Makoto Yoshida, Xueyang Feng and Barry Goodell, RSC Advances (2015) 5(126):104043-104047

40. Strand-Specific RNA-Seq Analyses of Fruiting Body Development in Coprinopsis cinerea. Hajime Muraguchi, Kiwamu Umezawa, Mai Niikura, Makoto Yoshida, Toshinori Kozaki, Kazuo Ishii, Kiyota Sakai, Motoyuki Shimizu, Kiyoshi Nakahori, Yuichi Sakamoto, Cindy Choi, Chew Yee Ngan, Eika Lindquist, Anna Lipzen, Andrew Tritt, Sajeet Haridas, Kerrie Barry, Igor V. Grigoriev, Patricia J. Pukkila, PLoS ONE (2015) 10:e0141586

41. Analysis of microbial volatile organic compounds produced by wood-decay fungi. Rumi Konuma, Kiwamu Umezawa, Atsushi Mizukoshi, Kensuke Kawarada and Makoto Yoshida*, Biotechnology Letters (2015) 37(9):1845-1852

42. 褐色腐朽菌オオウズラタケが放散する揮発性有機化合物の分析手法の検討. 小沼　ルミ，水越　厚史，瓦田　研介，吉田　誠*, 木材保存 (2015) 41(3):108-118

43. Microbial flora analysis of Neolithic tree remains from the Yenikapi excavation site in Istanbul, Turkey, using denaturing gradient gel electrophoresis. Tomoko Wada, Yuji Nakada, Dilek Dogu, Coskun Kose, Nural Yilgor, Kamile Tirak Hizal, Makoto Yoshida, Kiyohiko Igarashi, S. Nami Kartal and Ken Okada, 保存科学 (2015) 54:171-183

44. A novel pyrroloquinoline quinone-dependent 2-keto-D-glucose dehydrogenase from Pseudomonas aureofaciens. Kiwamu Umezawa, Kouta Takeda, Takuya Ishida, Naoki Sunagawa, Akiko Makabe, Kazuo Isobe, Keisuke Koba, Hiroyuki Ohno, Masahiro Samejima, Nobuhumi Nakamura, Kiyohiko Igarashi, Makoto Yoshida*, Journal of Bacteriology (2015) 197(8):1322-1329

45. Characterization of a Novel PQQ-Dependent Quinohemoprotein Pyranose Dehydrogenase from Coprinopsis cinerea Classified into Auxiliary Activities Family 12 in Carbohydrate-Active Enzymes. Kouta Takeda, Hirotoshi Matsumura, Takuya Ishida, Masahiro Samejima, Hiroyuki Ohno, Makoto Yoshida*, Kiyohiko Igarashi, and Nobuhumi Nakamura, PLOS ONE (2015) 10:e0115722

46. Continuous expression of genes for xylem cysteine peptidases in long-lived ray parenchyma cells in Populus. Satoshi Nakaba, Naoki Takata, Maokoto Yoshida, Ryo Funada, Plant Biotechnology (2015) 32(1):21-29

47. 福島県二本松市東部で採取された野生動物（数種の鳥類および哺乳類）の放射性セシウム蓄積. 渡邉 泉，野村あづみ，増川武志，尾崎宏和，渡井千絵，林谷秀樹，五味高志，吉田 誠，横山 正, 環境放射能除染学会誌 (2014) 2(4):241-250

48. Discovery of a Eukaryotic Pyrroloquinoline Quinone-Dependent Oxidoreductase Belonging to a New Auxiliary Activity Family in the Database of Carbohydrate-Active Enzymes. Hirotoshi Matsumura, Kiwamu Umezawa, Kouta Takeda, Naohisa Sugimoto, Takuya Ishida, Masahiro Samejima, Hiroyuki Ohno, Makoto Yoshida*, Kiyohiko Igarashi, Nobuhumi Nakamura, PLOS ONE (2014) 9(8):e104851

49. 腐朽した土台材中に存在する菌類の菌叢解析. 和田朋子，中田裕治，吉田　誠，五十嵐圭日子，鮫島正浩，堀沢　栄，土居修一，桃原郁夫, 木材保存 (2013) 39(6):280-290

50. Crystal structure of the N-terminal domain of a glycoside hydrolase family 131 protein from Coprinopsis cinerea. Takatsugu Miyazaki, Makoto Yoshida, Mizuki Tamura, Yutaro Tanaka, Kiwamu Umezawa, Atsushi Nishikawa, and Takashi Tonozuka, FEBS Letters (2013) 587(14):2193-2198

51. サクラ（ソメイヨシノ）の樹幹内に存在する真菌類の菌叢解析. 中田裕治，永石憲道，和田朋子，鮫島正浩，吉田　誠*, 木材保存 (2013) 39(3):118-124

52. Visualization of the mycelia of wood rotting fungi by fluorescence in situ hybridization using a peptide nucleic acid probe. Nakada Yuji, Satoshi Nakaba, Hiroshi Matsunaga, Ryo Funada, and Makoto Yoshida*, Bioscience, Biotechnology, and Biochemistry (2013) 77(2):405-408

53. Comparison of the structural changes in two cellobiohydrolases, CcCel6A and CcCel6C, from Coprinopsis cinerea: a tweezer-like motion in the structure of CcCel6C. Mizuki Tamura, Takatsugu Miyazaki, Yutaro Tanaka, Makoto Yoshida, Atsushi Nishikawa, and Takashi Tonozuka, FEBS Journal (2012) 279(10):1871-1882

54. Structural and biochemical characterization of glycoside hydrolase family 79 β-glucuronidase from Acidobacterium capsulatum. Mari Michikawa, Hitomi Ichinose, Mitsuru Momma, Peter Biely, Seino Jongkees, Makoto Yoshida, Toshihisa Kotake, Yoichi Tsumuraya, Stephen Withers, Zui Fujimoto, and Satoshi Kaneko, Journal of Biological Chemistry (2012) 287(17):14069-14077

55. 連結バイオプロセス（CBP）に適した野生エノキタケのスクリーニングとその系統の栽培特性. 高畠幸司，金子周平，吉田　誠，金子　哲, 富山県農林水産総合センター森林研究所研究報告 (2012) 4:15-24

56. Effect of Lime Pretreatment of Brown Midrib Sorghums. Tomoko Maehara, Tomoyuki Takai, Hiroaki Ishihara, Makoto Yoshida, Kiyoharu Fukuda, Mitsuru Gau, Satoshi Kaneko, Bioscience, Biotechnology, and Biochemistry (2011) 75(12):2415-2417

57. 白色腐朽菌由来リグニンペルオキシダーゼ遺伝子およびマンガンペルオキシダーゼ遺伝子の検出. 吉田　誠*，橋本　薫，石森　彩，中田裕治，橋本広祐，大坂典子, 木材保存 (2011) 37(3):111-121

58. The myosin ATPase inhibitor, 2,3-butanedione 2-monoxime, prevents protein secretion by the basidiomycete Coprinopsis cinerea. Kohsuke Hashimoto, Etsuo Yokota, Teruo Shimmen, and Makoto Yoshida*, Biotechnology Letters (2011) 33(4):769-775

59. Isolation and Characterization of CcAbf62A, a GH62 α-L-Arabinofuranosidase, from the Basidiomycete Coprinopsis cinerea. Kohsuke Hashimoto, Makoto Yoshida, and Keiji Hasumi, Biosciece, Biotechnology, and Biochemistry (2011) 75(2):342-345

60. セルロース培養系においてエノキタケが生産する糖質加水分解酵素ファミリー7セロビオヒドロラーゼの解析. 石黒真希，堀　友宣，吉田　誠，高畠幸司，金子　哲，五十嵐圭日子，鮫島正浩, 木材学会誌 (2010) 56(6):397-404

61. Extracellular carbohydrate esterase from the basidiomycete Coprinopsis cinerea released ferulic and acetic acids from xylan. Kohsuke Hashimoto, Satoshi Kaneko, and Makoto Yoshida*, Biosciece, Biotechnology, and Biochemistry (2010) 74(8):1722-1724

62. Molecular cloning of cDNAs encoding two glycoside hydrolase family 7 cellobiohydrolases from Flammulina velutipes. Maki Ishiguro, Tomonobu Hori, Takuya Ishida, Makoto Yoshida, Koji Takabatake, Satoshi Kaneko, Kiyohiko Igarashi, and Masahiro Samejima,
    Plant Biotechnology (2010) 27(3):273-281

63. Development of gene transfer system for mycelia of Flammulina velutipes Fv-1 strain. Tomoko Maehara, Makoto Yoshida, Yasuhiro Ito, Shizuko Tomita, Koji Takabatake, Hitomi Ichinose, and Satoshi Kaneko, Biosciece, Biotechnology, and Biochemistry (2010) 74(5):1126-1128

64. 変性剤濃度勾配ゲル電気泳動法を利用した腐朽木材中に存在する真菌類の菌叢解析. 中田 裕治，久住 朝子，半 智史，片山 葉子，船田 良，福田 清春，吉田 誠*, 木材保存 (2010) 36(3):100-110

65. Crystal structure of a glycoside hydrolase family 6 enzyme, CcCel6C, a cellulase constitutively produced by Coprinopsis cinerea. Yuan Liu, Makoto Yoshida, Yuma Kurakata, Takatsugu Miyazaki, Kiyohiko Igarashi, Masahiro Samejima, Kiyoharu Fukuda, Atsushi Nishikawa, and Takashi Tonozuka, FEBS Journal (2010) 277(6):1532-1542

66. セルロース分解性真菌類が生産するセルラーゼの多様性. 吉田　誠, 木材保存 (2009) 35(6):250-259

67. 大腸菌O157:H7のバイオフィルム形成における糖類の影響. Makoto Yoshida, Shinichi Kawamoto, and Satoshi Kaneko, Journal of Applied Glycoscience (2009) 56(3):223-227

68. Characterization of glycoside hydrolase family 6 enzymes from Coprinopsis cinerea. Yuan Liu, Kiyohiko Igarashi, Satoshi Kaneko, Takashi Tonozuka, Masahiro Samejima, Kiyoharu Fukuda, and Makoto Yoshida*, Bioscience, Biotechnology, and Biochemistry (2009) 73(6):1432-1434

69. Heterologous expression, crystallization and preliminary X-ray characterization of CcCel6C, a glycoside hydrolase family 6 enzyme from the basidiomycete Coprinopsis cinerea. Yuma Kurakata, Takashi Tonozuka, Yuan Liu, Satoshi Kaneko, Atsushi Nishikawa, Kiyoharu Fukuda and Makoto Yoshida*, Acta Crystallographica Section F (2009) 65(2):140-143

70. Cloning and Transcript Analysis of Multiple Genes Encoding the Glycoside Hydrolase Family 6 Enzyme from Coprinopsis cinerea. Makoto Yoshida*, Kan Sato, Satoshi Kaneko, and Kiyoharu Fukuda, Bioscience, Biotechnology, and Biochemistry (2009) 73(1):67-73

71. 腐生担子菌Coprinus cinereusのセルロース分解時に発現が誘導される遺伝子. 吉田　誠*，中田裕治，金子　哲，福田清春, 木材保存 (2008) 34(6):269-280

72. Characterization of a modular enzyme of exo-1,5-alpha-L-arabinofuranosidase and arabinan binding module from Streptomyces avermitilis NBRC14893. Hitomi Ichinose, Makoto Yoshida (equal contribution), Zui Fujimoto, Satoshi Kaneko, Applied Microbiology and Biotechnology (2008) 80(3):399-408

73. 食用担子菌ヤマブシタケによるシュガービートパルプの分解. 須藤絵里子，吉田　誠，福田清春，高畠幸司，金子　哲, 食品総合研究所研究報告 (2008) 72:65-71

74. Effects of cellulose crystallinity, hemicellulose, and lignin on the enzymatic hydrolysis of Miscanthus sinensis to monosaccharides. Makoto Yoshida*, Yuan Liu, Satoshi Uchida, Kensuke Kawarada, Yusuke Ukagami, Hitomi Ichinose, Satoshi Kaneko and Kiyoharu Fukuda, Bioscience, Biotechnology and Biochemistry (2008) 72(3):805-810

75. Molecular cloning and characterization of two intracellular beta-glucosidases belonging to glycoside hydrolase family 1 from the basidiomycete Phanerochaete chrysosporium. Takeshi Tsukada, Kiyohiko Igarashi, Makoto Yoshida, Masahiro Samejima, Applied Microbiology and Biotechnology (2006) 73(4):807-814

76. Hydrolysis of beta-1,3/1,6-glucan by glycoside hydrolase family 16 endo-1,3(4)-beta-glucanase from the basidiomycete Phanerochaete chrysosporium. Kawai Rie, Kiyohiko Igarashi, Makoto Yoshida, Motomitsu Kitaoka, Masahiro Samejima, Applied Microbiology and Biotechnology (2006) 71(6):898-906

77. Characterization of an exo-beta-1,3-galactanase from Clostridium thermocellum. Hitomi Ichinose, Atsushi Kuno, Toshihisa Kotake, Makoto Yoshida, Kazuo Sakka, Jun Hirabayashi, Yoichi Tsumuraya, Satoshi Kaneko, Applied and Environmental Microbiology (2006) 72(5):3515-3523

78. Characterization of a thermostable endo-beta-1,4-D-galactanase from the hyperthermophile Thermotoga maritima. Hong Yang, Hitomi Ichinose, Makoto Yoshida, Mitsutoshi Nakajima, Hideyuki Kobayashi, Satoshi Kaneko, Bioscience Biotechnology and Biochemistry (2006) 70(2):535-541

79. Characterization of carbohydrate-binding cytochrome b562 from the white-rot fungus Phanerochaete chrysosporium. Makoto Yoshida, Kiyohiko Igarashi, Masahisa Wada, Satoshi Kaneko, Norio Suzuki, Hirotoshi Matsumura, Nobuhumi Nakamura, Hiroyuki Ohno, Masahiro Samejima, Applied and Environmental Microbiology (2005) 71(8):4548-4555

80. An exo-beta-1,3-galactanase having a novel beta-1,3-galactan-binding module from Phanerochaete chrysosporium. Hitomi Ichinose, Makoto Yoshida, Toshihisa Kotake, Atsushi Kuno, Kiyohiko Igarashi, Yoichi Tsumuraya, Masahiro Samejima, Jun Hirabayashi, Hideyuki Kobayashi, Satoshi Kaneko, Journal of Biological Chemistry (2005) 280(27):25820-25829

81. Electron transfer chain reaction of the extracellular flavocytochrome cellobiose dehydrogenase from the basidiomycete Phanerochaete chrysosporium. Kiyohiko Igarashi, Yoshida Makoto, Hirotoshi Matsumura, Nobuhumi Nakamura, Hiroyuki Ohno, Masahiro Samejima, Takeshi Nishino, FEBS Journal (2005) 272(11):2869-2877

82. Characterization and molecular cloning of cellobiose dehydrogenase from the brown-rot fungus Coniophora puteana. Kajisa Taira, Makoto Yoshida, Kiyohiko Igarashi, Katayama Akira, Takeshi Nishino, Masahiro Samejima, Journal of Bioscience and Bioengineering (2004) 98(1):57-63

83. Differential transcription of beta-glucosidase and cellobiose dehydrogenase genes in cellulose degradation by the basidiomycete Phanerochaete chrysosporium. Makoto Yoshida, Kiyohiko Igarashi, Rie Kawai, Katsumi Aida, Masahiro Samejima, FEMS Microbiology Letters (2004) 235(1):177-182

84. Production and characterization of recombinant Phanerochaete chrysosporium beta-glucosidase in the methylotrophic yeast Pichia pastoris. Kawai Rie, Yoshida Makoto, Tani Tomomi, Kiyohiko Igarashi, Tsuyoshi Ohira, Hiromichi Nagasawa, Masahiro Samejima, Bioscience Biotechnology and Biochemistry (2003) 67(1):1-7

85. Molecular cloning and characterization of a cDNA encoding cellobiose dehydrogenase from the wood-rotting fungus Grifola frondosa. Makoto Yoshida, Tsuyoshi Ohira, Kiyohiko Igarashi, Hiromichi Nagasawa, Masahiro Samejima, FEMS Microbiology Letters (2002) 217(2):225-230

86. Production and characterization of recombinant Phanerochaete chrysosporium cellobiose dehydrogenase in the methylotrophic yeast Pichia pastoris. Makoto Yoshida, Tsuyoshi Ohira, Kiyohiko Igarashi, Hiromichi Nagasawa, Katsumi Aida, B. Martin Hallberg, Cchristina Divne, Takeshi Nishino, Masahiro Samejima, Bioscience Biotechnology and Biochemistry (2001) 65(9):2050-2057
    
    

総説・解説など

1. 木材腐朽菌の科学. 吉田誠, 日本防菌防黴学会誌, 医学中央雑誌刊行会, 2021年07月, （MISC）総説・解説（学術雑誌）, 単独, 49, 7, 337, 343

2. The Role of Lytic Polysaccharide Monooxygenases in Wood Rotting Basidiomycetes. Kojima, Yuka; Varnai, Aniko; Eijsink, Vincent G. H.; Yoshida, Makoto, TRENDS IN GLYCOSCIENCE AND GLYCOTECHNOLOGY (2020) 32(188):E135-E143 

3. 褐色腐朽メカニズム研究の最新の知見. 近藤里沙子、築田理華子、吉田　誠, 日本防菌防黴学会誌 (2020) 48(5):243-245

4. Discovery of a novel quinohemoprotein from a eukaryote and its application in electrochemical devices. Takeda, Kouta; Igarashi, Kiyohiko; Yoshida, Makoto; Nakamura, Nobuhumi, BIOELECTROCHEMISTRY (2020) 131:107372

5. ゲノム情報解析で明らかとなった多様な木材腐朽菌の起源と進化. 堀 千明, 吉田 誠, 五十嵐圭日子, 鮫島正浩, 木材学会誌 (2019) 65(4):173-188

6. Fungal PQQ-dependent dehydrogenases and their potential in biocatalysis. Takeda, Kouta; Umezawa, Kiwamu; Varnai, Aniko; Eijsink, Vincent G. H.; Igarashi, Kiyohiko; Yoshida, Makoto; Nakamura, Nobuhumi, CURRENT OPINION IN CHEMICAL BIOLOGY (2019) 49:113-121

7. Biosynthesis of d-lactic acid from lignocellulosic biomass. Zhang, Yixing; Yoshida, Makoto; Vadlani, Praveen V., BIOTECHNOLOGY LETTERS (2018) 40(8):1167-1179

8. 腐朽メカニズムの概要と研究の展望. 吉田　誠, 木材保存 (2018) 44(3):172-175

9. 虫歯菌がつくる高分子多糖類からの高耐熱性バイオプラスチック. 岩田忠久、サーカリン プアンレック、木村 聡、吉田 誠, MATERIAL STAGE (2017) 16(10)52-54

10. 真核生物における新規ピロロキノリンキノン依存性糖質酸化酵素の発見. 松村洋寿、武田康太、中村暢文、吉田　誠、五十嵐圭日子、鮫島正浩, 酵素工学ニュース (2016) 75:24-30

11. 自然界における木材腐朽現象の多様性. 吉田　誠, 応用糖質科学 (2015) 5(4):200-203

12. 糸状菌のセルロース分解系における酸化還元酵素の重要性. 吉田　誠, しろあり (2014) 162:24-28

13. 糸状菌がセルロース分解時に生産する酸化還元酵素について. 吉田　誠, 応用糖質科学 (2013) 3(3):210-212

14. 役者はセルラーゼだけじゃない！？ 吉田　誠, 生物工学会誌 (2012) 90(11):737

15. 遺伝子解析を木材保存学にいかす（2）－腐朽菌検出の原理とその具体例－. 吉田　誠, 木材保存 (2011) 37(5):204-212

16. 遺伝子解析を木材保存学にいかす（１）-腐朽菌の検出技術を中心として-. 吉田　誠, 木材保存 (2011) 37(4):158-164

著書

1. 木材学　応用編. 日本木材学会17章, 978-4-86099-406-8

2. 森林・林業実務必携第２版. 東京農工大学農学部　森林・林業実務必携編集委員会編, 22.4節、25.1〜25.5節 朝倉書店, 978-4-254-47057-4

3. 木材保存学入門改訂４版. 第2章　2.2.5-2.2.8 公益社団法人日本木材保存協会, 978-4-9907830-2-1

4. Research Approaches to Sustainable Biomass Systems/ Chapter 9 Enzymes for Cellulosic Biomass Conversion. Takashi Tonozuka, Makoto Yoshida, Michio Takeuchi,  ELSEVIER

5. 木材保存学入門　改訂3版　第2章　2.2.5～2.2.8. 第2章　2.2.5～2.2.8  公益社団法人日本木材保存協会, 978-4-9901979-6-4

6. バイオフィルムの基礎と制御. 第２章第３節３．分解酵素を用いたバイオフィルム除去システム,  株式会社NTS