|Prof||Natsuko Hamamura||1. Environmental microbiology. |
2. Geomicrobiology of metalloids.
3. Microbial ecology in the extreme environment.
|M2||Tuyoshi Hokimoto||Investigation of the effect of antimony on iron mineral reduction by the iron-reducing bacterium Desulfitobacterium sp. IK-dgb4|
|Past Member's research theme|
|Choi Wonjoon||2016 B.S.||Distribution and diversity of anaerobic arsenite oxidase gene, arx, in the arsenic contaminated environments|
|Misaki Eto||2018 M.S.||Diversity and function of rumen microbiomein Sika deer (Cervus nippon yakushimae) from Yakushima Island, Japan|
|Yoriko Yamashita||2018 M.S.||Phylogenetic and physiological characterization of antimony-reducing consortia community members|
|ZHENG CHEN||2018 B.S.||The effect of two-component system PhoRB on gene expression of anaerobic arsenic oxidase Arx|
|Seiichirou Takayama||2019 M.S.||PhyAnalysis of bacterial communities in complicated microenvironment of soil.|
|HE XIN||2019 M.S.||Identification of antimony oxidation mechanism in a bacterial consortium obtained from Ichinokawa Antimony Mine|
|Tomotaka Ookubo||2020 M.S.||Investigation of microbial harmful element metabolism by extracellular electron transfer pathway using electrochemical culture method|
|Masatoshi Oota||2020 B.S.||Exploring the effects of soil physiochemical conditions on microbial community-Detection of the key-stone-species by network analysis|
|Daisuke Yamashita||2021 M.S.||The investigation of antimony-reducing microbial consortium for the ability to reduce electron mediators and soluble iron (III)|
|Shogo Ootsuka||2021 B.S.||Isolation of iron-metabolizing bacteria in heavy-metal contaminated environments and investigation of their metabolic activities|
|Daichi Miyazaki||2022 M.S.||Elucidating the mechanism of antimony metabolism in facultatively anaerobic antimony-oxidizing bacterium|
|Yuuya Yoshimura||2022 M.S.||Investigation of Arsenic and Antimony Resistance and Electroactivity of Microorganisms Isolated from Stibnite Mine Tailings|
|Saki Yurioka||2022 B.S.||Isolation of antimony-tolerant phototrophic bacterium from heavy-metals contaminated environmental samples|
|Yurie Matsuda||Technical assistant||2016/5～2017/7|
|Ayako Yamate||Technical assistant||2017/8～2017/12|
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