Sato Shusei

サトウシユウセイ | Sato Shusei

Affiliation and department：
Homepage URL (1)： https://kaken.nii.ac.jp/d/r/70370921.ja.html

Research field (4)： Plants: molecular biology and physiology , Horticulture , Genomics , Plant genetics and breeding

Research keywords (30)：ゲノム , ダイズ , ミヤコグサ , シンテニー , 連鎖地図 , 比較地図 , 植物 , 共生 , コンティグ , 微生物 , 窒素固定 , 連鎖群 , 遺伝子 , 遺伝子座 , エンドファイト , BACクローン , 遺伝子発現 , ゲノムアイランド , 形質転換 , 変異体 , 遺伝子単離 , ゲノム解析 , QTL解析 , シンテニーブロック , 根粒菌 , ホモロジー検索 , マイクロシンテニー , 遺伝子予測 , 同祖遺伝子 , 遺伝子重複

Research theme for competitive and other funds (24)：

2025 - 2028 Analysis of host mechanisms controlling microvariation in endophytic plant microbiota
2024 - 2027 Elucidation of molecular mechanism of chiasma localization in bunching onion and its application to bulb onion breeding
2023 - 2027 Exploring the origins of root-nodule symbiosis: Functional analysis of rhizobial effectors governing primitive rhizobial symbiosis
2023 - 2027 Molecular dissection of a rhizobial effector dependent novel symbiotic pathway in legume-rhizobia symbiosis
2023 - 2025 Analysis of the positive effect of the root parasitic plant metabolites on the host plant growth

2021 - 2024 Multi-omics study for targeting genes related to heat tolerance and functionality in leaf bunching onion cultivar

2020 - 2024 窒素固定共生のリコンストラクション

2020 - 2023 圃場におけるダイズ根粒菌集団管理法の開発

2020 - 2023 Novel solar UVB adaptation strategic mechanism in plants, which have not function of CPD photoreactivation in chloroplast.

2020 - 2023 細胞内共生成立後の宿主による根粒菌選別機構の解明と土壌根粒菌叢への影響の評価

2017 - 2020 Development of core collocation in garlic genetic resources through integrated omics analysis and its evaluation for functionality

2017 - 2020 Organelle damage and UVB resistance induced by differences in CPD photolyase organelle localization among plants

2015 - 2018 Development of new genetic resources of rice against global climate change

2014 - 2017 Application of integrated omics analyses by using Allium bio-resources to onion breeding

2014 - 2017 Mechanisms of symbiotic evolution and N2O mitigation of soybean bradyrhizobia

2014 - 2016 Analysis of genetic factors involved in interaction between rhizobium and host plant through type III secretion system

2013 - 2016 Genomic information of an endophyte of Lotus japonicus to facilitate investigation on the symbiosis

2013 - 2016 Molecular mechanism of floral diversification in orchids

2011 - 2013 Deduction of minimum sysmbiosis island gene sets for Lotus rhizobia

2009 - 2012 Comparative genomics of Bradyrhizobia toward uncovering relationshipbetween the genetic elements and the biological effects in soybean symbiosis

2008 - 2009 ミヤコグサとのシンテニーを利用したダイズのゲノム構造の解析

2006 - 2009 Construction of physical maps and sequence analyses for the regions covering the important trait loci in soybean

2006 - 2007 ミヤコグサとのシンテニーを利用したダイズのゲノム構造の解析

2005 - 2005 ミヤコグサを基準としたダイズのゲノム特性の解明

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Papers (452)：

Takashi Goto, Kasper Røjkjær Andersen, Masaru Bamba, Shusei Sato, Masayuki Sugawara, Kiwamu Minamisawa, Masayoshi Kawaguchi, Jens Stougaard, Yasuyuki Kawaharada. Cyclophilin A-mediated cis/trans isomerization modulates RIN4 to control intracellular rhizobial infection in legumes. New Phytologist. 2026
Tetsuya Nakajima, Kouei Fujii, Kenji Watanabe, Yoichi Mizukami, Masaru Bamba, Shusei Sato, Masayoshi Shigyo. QTL Mapping of SPAD Values Associated with Leaf Color in Bunching Onion. Genes. 2026
Chiharu Ota, Masaru Bamba, Shusei Sato, Takashi Tsuchimatsu. Soil microbial composition and abundance influence the growth of Lotus japonicus. Journal of Plant Research. 2026
Sawa Wasai-Hara, Yoshikazu Shimoda, Hisayuki Mitsui, Shusei Sato, Haruko Imaizumi-Anraku, Kiwamu Minamisawa. Promoter Sequences Do Not Solely Govern nosZ Expression Differences between Bradyrhizobium ottawaense and B. diazoefficiens. Microbes and Environments. 2026. 41. 1. n/a-n/a
Haruka Arashida, Hiroko Maita, Shusei Sato, Kiwamu Minamisawa. Genome Plasticity Depends on Positions both Inside and Outside of the Symbiosis Island of Bradyrhizobium diazoefficiens. Microbes and Environments. 2026. 41. 1. n/a-n/a

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MISC (414)：

後藤あい, 大江史花, 増田幸子, 柴田ありさ, 白須賢, ABDELA Argen Adem, 三井久幸, 佐藤修正, 渡邉健史, 浅川晋, et al. メタン酸化細菌はN₂Oを生成・還元するのか?-水田由来株におけるN₂O代謝経路の探索-. 日本微生物生態学会大会(Web). 2025. 38th
上野公之, 加藤壮英, 佐藤修正, 加藤晃, 加藤晃, 若林智美. ミヤコグサの枝数に影響を与えるUMAMIT2遺伝子は平衡選択の影響を受けた可能性がある. 日本植物分類学会大会研究発表要旨集. 2025. 24th
ABDELA Argen Adem, KOMATSU Taiho, OE Fumika, SHINJO Rina, WATANABE Takeshi, ASAKAWA Susumu, MINAMISAWA Kiwamu, MITSUI Hisayuki, SATO Shusei. Characterization of rice root colonization by diverse methanotroph isolates from paddy-grown rice plants. 土と微生物. 2024. 78. 2
後藤あい, 大江史花, 増田幸子, 柴田ありさ, 白須賢, MA Xuping, 福嶋大智, 常田岳志, ABDELA Argen Adem, 三井久幸, et al. 水田生態系より分離されたメタン酸化細菌による一酸化二窒素の生成・還元能の解析. 土と微生物. 2024. 78. 2
佐藤豊, 草場信, 内藤健, 磯部祥子, 有泉亨, 佐藤修正, 佐藤和広, 新倉聡, 赤木剛士. ゲノムと新技術により輝きを増す遺伝資源と育種学の未来-The future of genetic resources and breeding science brightened by genomics and new technologies-2022年第63回シンポジウム(シンポジウム・ワークショップ)報告. 育種学研究 = Breeding research : 日本育種学会和文誌 / 日本育種学会編. 2023. 25. 1. 33-40

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Professional career (1)：

博士(理学) (名古屋大学)

Work history (3)：

2020/06 - 現在 Tohoku University Graduate School of Life Sciences Professor
2013/04 - 2020/06 Tohoku University
1993/04 - 2013/03 Kazusa DNA Research Institute Researcher

Awards (1)：

2018/11 - Clarivate Analytics Highly Cited Researchers

Association Membership(s) (4)：

Japanese Society of Plant Microbe Interactins , Society of Genome Microbiology, Japan , THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS , THE MOLECULAR BIOLOGY SOCIETY OF JAPAN

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