1. Rare UV-resistant cells in clonal populations of Escherichia coli.
Shunsuke Ichikawa, Mika Okazaki, Mina Okamura, Norihiro Nishimura, Hideto Miyake.
Journal of Photochemistry and Photobiology B. 231:112448. 2022.
2. The expression of alternative sigma-I7 factor induces the transcription of cellulosomal genes in the cellulolytic bacterium Clostridium thermocellum.
Shunsuke Ichikawa Daisuke Ito, Sayuri Asaoka, Reimi Abe, Norito Katsuo, Toshiyuki Ito, Daichi Ito, Shuichi Karita.
Enzyme and Microbial Technology. 156:110002. 2022.
3. Metabolome analysis of constituents in membrane vesicles for Clostridium thermocellum growth stimulation.
Shunsuke Ichikawa, Yoichiro Tsuge, Shuichi Karita.
Microorganisms. 9: 593. 2021.
4. Physcomitrella STEMIN transcription factor induces stem cell formation with epigenetic reprogramming.
Masaki Ishikawa, Mio Morishita, Yohei Higuchi, Shunsuke Ichikawa, Takaaki Ishikawa, Tomoaki Nishiyama, Yukiko Kabeya, Yuji Hiwatashi, Tetsuya Kurata, Minoru Kubo, Shuji Shigenobu, Yosuke Tamada, Yoshikatsu Sato, Mitsuyasu Hasebe.
Nature Plants. 5:681-690. 2019.
5. Cellulosomes localize on the surface of membrane vesicles from the cellulolytic bacterium Clostridium thermocellum.
Shunsuke Ichikawa, Satoru Ogawa, Ayami Nishida, Yuzuki Kobayashi, Toshihito Kurosawa, Shuichi Karita.
FEMS Microbiology Letters. 366:fnz145. 2019.
6. Glucose production from cellulose through biological simultaneous enzyme production and saccharification using recombinant bacteria expressing the β-glucosidase gene.
Shunsuke Ichikawa, Maiko Ichihara, Toshiyuki Ito, Kazuho Isozaki, Akihiko Kosugi, Shuichi Karita.
Journal of Bioscience and Bioengineering. 127:340-344. 2018.
7. Characterization of lignocellulose particles during lignocellulose solubilization by Clostridium thermocellum.
Shunsuke Ichikawa, Ayami Nishida, Saori Yasui, Shuichi Karita.
Bioscience, Biotechnology, and Biochemistry. 81:2028-2033. 2017.
8. Single- and double-wall carbon nanotubes enhance atherosclerogenesis by promoting monocyte adhesion to endothelial cells and endothelial progenitor cell dysfunction.
Yuka Suzuki, Saeko Tada-Oikawa, Yasuhiko Hayashi, Kiyora Izuoka, Misa Kataoka, Shunsuke Ichikawa, Wenting Wu, Cai Zong, Gaku Ichihara, Sahoko Ichihara.
Particle and Fibre Toxicology. 13:54. 2016.
9. Carbohydrate-binding modules influence substrate specificity of an endoglucanase from Clostridium thermocellum.
Shunsuke Ichikawa, Mitsuki Yoshida, Shuichi Karita, Makoto Kondo and Masakazu Goto.
Bioscience, Biotechnology, and Biochemistry. 80:188-192. 2016.
10. Bacterial production and secretion of water-insoluble fuel compounds from cellulose without the supplementation of cellulases.
Shunsuke Ichikawa and Shuichi Karita.
FEMS Microbiology Letters. 362:fnv202. 2015.
11. Cellulosomal carbohydrate-binding module from Clostridium josui binds to crystalline and non-crystalline cellulose, and soluble polysaccharides.
Shunsuke Ichikawa, Shuichi Karita, Makoto Kondo and Masakazu Goto.
FEBS Letters. 588:3886-3890. 2014.
1. 科学的リテラシーの育成を目指すカフェインを題材とした家庭科授業の実践
中西理紗、平島円、荻原彰、市川俊輔、村田晋太朗、後藤太一郎、磯部由香
三重大学教育学部研究紀要 73: 383-391. 2022.
2. 高等学校教育課程修了時における学生の科学的リテラシーの習得状況
中西理紗、平島円、荻原彰、市川俊輔、磯部由香
三重大学教育学部研究紀要 72: 181-187. 2021.
3. 栄養と吸収の学習に関する問題解決型授業の開発
佐藤有紗、東啓太、岡﨑こころ、市川俊輔、後藤太一郎
三重大学教育学部研究紀要 72: 57-67. 2021.
4. Engineering of Clostridium thermocellum for heterologous gene expression and secretion.
Shunsuke Ichikawa, Toshiyuki Ito, Kazuho Isozaki, Shuichi Karita.
The Bulletin of the Graduate School of Bioresources, Mie University. 43:1-7. 2017.
5. The fermentation feedstock production from cellulosic biomass by the engineered bacterium.
Maiko Ichihara, Shunsuke Ichikawa and Shuichi Karita.
Proceedings of the Seventh International Workshop on Regional Innovation Studies. 41-44. 2015.
6. Direct microbial production of higher alcohols from cellulose.
Shunsuke Ichikawa and Shuichi Karita.
Proceedings of the Seventh International Workshop on Regional Innovation Studies. 33-36. 2015.
7. Microbial degradation of plant lignocellulolytic biomass without pretreatment.
Shunsuke Ichikawa and Shuichi Karita.
Australian Journal of Basic and Applied Science. 8:781-783. 2014.
8. A simplified biofuel production from plant lignocellulolytic biomass.
Shunsuke Ichikawa and Shuichi Karita.
Proceedings of the Fifth International Workshop on Regional Innovation Studies. 1-3. 2013.
9. Characterization of family 3 carbohydrate-binding module from Clostridium josui.
Shunsuke Ichikawa and Shuichi Karita.
Proceedings of the Second International Workshop on Regional Innovation Studies. 5-8. 2010.
10. The adsorption isotherm analysis of the binding of carbohydrate-binding modules.
Shunsuke Ichikawa and Shuichi Karita.
Proceedings of the 16th Tri-University International Joint Seminar and Symposium. TRIU09EY-13. 2009.
1. Clostridium属細菌によるセルロース系バイオマス分解と化成品原料生産
市川俊輔、伊藤敏之、磯崎一歩、市原舞子、苅田修一
応用糖質科学 8:94-101. 2018.
2. 土壌細菌Clostridium thermocellumによるセルロース糖化
市川俊輔
アグリバイオ 2:68-69. 2018.
1. Hydrocarbon synthesis genes expression in Clostridium thermocellum.
Shunsuke Ichikawa and Shuichi Karita.
Lignocellulose Degradation and Biorefinery. 331-338 2015.
1. 土壌病害防除剤、及びこの防除剤を用いた土壌病害防除方法 (公開中)
苅田修一、清水将文、市川俊輔
特開2012-246227
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