Basic Information

Faculty

• 農学部

Concurrent Affiliation

• Graduate School of Agriculture, 准教授

Professional Memberships

• 日本育種学会
• 日本遺伝学会

Academic Degree

• 修士（農学）(京都大学)
• Ｐｈ．Ｄ．(カンザス州立大学)

Academic Resume (Graduate Schools)

• 京都大学, 大学院農学研究科修士課程農林生物学専攻, 修了

Academic Resume (Undergraduate School/Majors)

• 京都大学, 農学部農林生物学科, 卒業

Language of Instruction

• English
• Japanese

ID,URL

• J-Global ID

  200901043617674385

researchmap URL

• https://researchmap.jp/read0046916

Research

Research Topics, Overview of the research

• Research Topics

  Genetic and genomic studies of wheat oriented to breeding

• Overview of the research

  分子細胞遺伝学的にコムギならびに近縁種の染色体構造を明らかにしている。パンコムギにおける効率的な染色体マッピング法の開発を行い、小麦の重要形質を支配する遺伝子と連鎖するマーカーの探索を行っている。コムギの配偶子致死遺伝子の抑制遺伝子を3B染色体狭動原体領域にマッピングした。動原体の機能・構造解析を行い、オオムギの種間交雑における単親性染色体脱落と動原体特異的ヒストンH3の局在の関係を明らかにした。

Research Interests

• 染色体工学
• 変異創生
• ゲノム科学
• 分子細胞遺伝学

Research Areas

• Life sciences, Genetics
• Environmental science/Agricultural science, Plant genetics and breeding

Papers

• Modeling of transcriptomic variation among subgenomes in 25 accessions of common wheat reveals cis- and trans-regulation architectures

  Yasuyuki Nomura; Moeko Okada; Toshiaki Tameshige; Shotaro Takenaka; Kentaro K Shimizu; Shuhei Nasuda; Atsushi J Nagano

  13 Oct. 2024

  
• Molecular cytological identification of the gametocidal chromosome discovered by Endo and Tsunewaki (1975) in an alloplasmic wheat

  Shuhei Nasuda; Kazuki Murata; Hiroyuki Kakui; Koichi Yamamori; Takanori Yoshikawa

  CYTOLOGIA, 25 Sep. 2023

  
• Evolution of wheat blast resistance gene Rmg8 accompanied by differentiation of variants recognizing the powdery mildew fungus.

  Soichiro Asuke; Kohei Morita; Motoki Shimizu; Fumitaka Abe; Ryohei Terauchi; Chika Nago; Yoshino Takahashi; Mai Shibata; Motohiro Yoshioka; Mizuki Iwakawa; Mitsuko Kishi-Kaboshi; Zhuo Su; Shuhei Nasuda; Hirokazu Handa; Masaya Fujita; Makoto Tougou; Koichi Hatta; Naoki Mori; Yoshihiro Matsuoka; Kenji Kato; Yukio Tosa

  Nature plants, 19 Jun. 2024

  
• Wheat Ym2 originated from Aegilops sharonensis and confers resistance to soil-borne Wheat yellow mosaic virus infection to the roots

  Kohei Mishina; Takako Suzuki; Youko Oono; Yoko Yamashita; Hongjing Zhu; Taiichi Ogawa; Masaru Ohta; Kohei Doman; Wenjing Xu; Daichi Takahashi; Taiga Miyazaki; Akemi Tagiri; Chihiro Soma; Harukuni Horita; Shuhei Nasuda; Romain De Oliveira; Etienne Paux; Guoxiong Chen; Mohammad Pourkheirandish; Jianzhong Wu; Cheng Liu; Takao Komatsuda

  Proceedings of the National Academy of Sciences, 10 Mar. 2023

  
• Development of a high-throughput field phenotyping rover optimized for size-limited breeding fields as open-source hardware

  Ken Kuroki; Kai Yan; Hiroyoshi Iwata; Kentaro K. Shimizu; Toshiaki Tameshige; Shuhei Nasuda; Wei Guo

  Breeding Science, 2022

  
• Global Wheat Head Detection 2021: An Improved Dataset for Benchmarking Wheat Head Detection Methods.

  Etienne David; Mario Serouart; Daniel Smith; Simon Madec; Kaaviya Velumani; Shouyang Liu; Xu Wang; Francisco Pinto; Shahameh Shafiee; Izzat S A Tahir; Hisashi Tsujimoto; Shuhei Nasuda; Bangyou Zheng; Norbert Kirchgessner; Helge Aasen; Andreas Hund; Pouria Sadhegi-Tehran; Koichi Nagasawa; Goro Ishikawa; Sébastien Dandrifosse; Alexis Carlier; Benjamin Dumont; Benoit Mercatoris; Byron Evers; Ken Kuroki; Haozhou Wang; Masanori Ishii; Minhajul A Badhon; Curtis Pozniak; David Shaner LeBauer; Morten Lillemo; Jesse Poland; Scott Chapman; Benoit de Solan; Frédéric Baret; Ian Stavness; Wei Guo

  Plant phenomics (Washington, D.C.), 2021

  
• Variations in radioactive cesium accumulation in wheat germplasm from fields affected by the 2011 Fukushima nuclear power plant accident

  Katashi Kubo; Hiroyuki Kobayashi; Miyuki Nitta; Shotaro Takenaka; Shuhei Nasuda; Shigeto Fujimura; Kyoko Takagi; Osamu Nagata; Takeshi Ota; Takuro Shinano

  Scientific Reports, Dec. 2020, Peer-reviewed

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• De Novo Genome Assembly of the Japanese Wheat Cultivar Norin 61 Highlights Functional Variation in Flowering Time and Fusarium Resistance Genes in East Asian Genotypes.

  Kentaro K Shimizu; Dario Copetti; Moeko Okada; Thomas Wicker; Toshiaki Tameshige; Masaomi Hatakeyama; Rie Shimizu-Inatsugi; Catharine Aquino; Kazusa Nishimura; Fuminori Kobayashi; Kazuki Murata; Tony Kuo; Emily Delorean; Jesse Poland; Georg Haberer; Manuel Spannagl; Klaus F X Mayer; Juan Gutierrez-Gonzalez; Gary J Muehlbauer; Cecile Monat; Axel Himmelbach; Sudharsan Padmarasu; Martin Mascher; Sean Walkowiak; Tetsuya Nakazaki; Tomohiro Ban; Kanako Kawaura; Hiroyuki Tsuji; Curtis Pozniak; Nils Stein; Jun Sese; Shuhei Nasuda; Hirokazu Handa

  Plant & cell physiology, 27 Nov. 2020

  
• Multiple wheat genomes reveal global variation in modern breeding.

  Sean Walkowiak; Liangliang Gao; Cecile Monat; Georg Haberer; Mulualem T Kassa; Jemima Brinton; Ricardo H Ramirez-Gonzalez; Markus C Kolodziej; Emily Delorean; Dinushika Thambugala; Valentyna Klymiuk; Brook Byrns; Heidrun Gundlach; Venkat Bandi; Jorge Nunez Siri; Kirby Nilsen; Catharine Aquino; Axel Himmelbach; Dario Copetti; Tomohiro Ban; Luca Venturini; Michael Bevan; Bernardo Clavijo; Dal-Hoe Koo; Jennifer Ens; Krystalee Wiebe; Amidou N'Diaye; Allen K Fritz; Carl Gutwin; Anne Fiebig; Christine Fosker; Bin Xiao Fu; Gonzalo Garcia Accinelli; Keith A Gardner; Nick Fradgley; Juan Gutierrez-Gonzalez; Gwyneth Halstead-Nussloch; Masaomi Hatakeyama; Chu Shin Koh; Jasline Deek; Alejandro C Costamagna; Pierre Fobert; Darren Heavens; Hiroyuki Kanamori; Kanako Kawaura; Fuminori Kobayashi; Ksenia Krasileva; Tony Kuo; Neil McKenzie; Kazuki Murata; Yusuke Nabeka; Timothy Paape; Sudharsan Padmarasu; Lawrence Percival-Alwyn; Sateesh Kagale; Uwe Scholz; Jun Sese; Philomin Juliana; Ravi Singh; Rie Shimizu-Inatsugi; David Swarbreck; James Cockram; Hikmet Budak; Toshiaki Tameshige; Tsuyoshi Tanaka; Hiroyuki Tsuji; Jonathan Wright; Jianzhong Wu; Burkhard Steuernagel; Ian Small; Sylvie Cloutier; Gabriel Keeble-Gagnère; Gary Muehlbauer; Josquin Tibbets; Shuhei Nasuda; Joanna Melonek; Pierre J Hucl; Andrew G Sharpe; Matthew Clark; Erik Legg; Arvind Bharti; Peter Langridge; Anthony Hall; Cristobal Uauy; Martin Mascher; Simon G Krattinger; Hirokazu Handa; Kentaro K Shimizu; Assaf Distelfeld; Ken Chalmers; Beat Keller; Klaus F X Mayer; Jesse Poland; Nils Stein; Curt A McCartney; Manuel Spannagl; Thomas Wicker; Curtis J Pozniak

  Nature, 25 Nov. 2020

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• Toward a breakthrough in Triticeae breeding: searching for ways to connect genotype and phenotype

  Fuminori Kobayashi; Hideki Araki; Yushi Ishibashi; Keiichi Mochida; Hitoshi Matsunaka; Tsuyoshi Tanaka; Goro Ishikawa; Shuhei Nasuda

  Breeding Research, 01 Jun. 2020

  
• Genetic dissection of grain morphology in hexaploid wheat by analysis of the NBRP-Wheat core collection.

  Motohiro Yoshioka; Shotaro Takenaka; Miyuki Nitta; Jianjian Li; Nobuyuki Mizuno; Shuhei Nasuda

  Genes & genetic systems, 09 Apr. 2019, Peer-reviewed

  
• Origin of wheat B-genome chromosomes inferred from RNA sequencing analysis of leaf transcripts from section Sitopsis species of Aegilops.

  Yuka Miki; Kentaro Yoshida; Nobuyuki Mizuno; Shuhei Nasuda; Kazuhiro Sato; Shigeo Takumi

  DNA research : an international journal for rapid publication of reports on genes and genomes, 01 Apr. 2019, Peer-reviewed

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• Population structure and association analyses of the core collection of hexaploid accessions conserved ex situ in the Japanese gene bank NBRP-Wheat.

  Takenaka S; Nitta M; Nasuda S

  Genes & genetic systems, Jan. 2019, Peer-reviewed

  
• DArTseq-based analysis of genomic relationships among species of tribe Triticeae.

  Offiong U Edet; Yasir S A Gorafi; Shuhei Nasuda; Hisashi Tsujimoto

  Scientific reports, 06 Nov. 2018, Peer-reviewed

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• Structural features of two major nucleolar organizer regions (NORs), Nor-B1 and Nor-B2, and chromosome-specific rRNA gene expression in wheat.

  Handa H; Kanamori H; Tanaka T; Murata K; Kobayashi F; Robinson SJ; Koh CS; Pozniak CJ; Sharpe AG; Paux E; International Wheat; Genome Sequencing; Consortium I; Wu J; Nasuda S

  The Plant journal : for cell and molecular biology, Sep. 2018, Peer-reviewed

  
• Shifting the limits in wheat research and breeding using a fully annotated reference genome.

  International Wheat; Genome Sequencing; Consortium (IWGSC; IWGSC RefSeq; principal investigators; Appels R; Eversole K; Feuillet C; Keller B; Rogers J; Stein N; IWGSC whole-genome assembly principal investigators; Pozniak CJ; Stein N; Choulet F; Distelfeld A; Eversole K; Poland J; Rogers J; Ronen G; Sharpe AG; Whole-genome sequencing; and assembly; Pozniak C; Ronen G; Stein N; Barad O; Baruch K; Choulet F; Keeble-Gagnère G; Mascher M; Sharpe AG; Ben-Zvi G; Josselin AA; Hi-C data-based scaffolding; Stein N; Mascher M; Himmelbach A; Whole-genome assembly quality control and analyses; Choulet F; Keeble-Gagnère G; Mascher M; Rogers J; Balfourier F; Gutierrez-Gonzalez J; Hayden M; Josselin AA; Koh C; Muehlbauer G; Pasam RK; Paux E; Pozniak CJ; Rigault P; Sharpe AG; Tibbits J; Tiwari V; Pseudomolecule assembly; Choulet F; Keeble-Gagnère G; Mascher M; Josselin AA; Rogers J; RefSeq genome structure; gene analyses; Spannagl M; Choulet F; Lang D; Gundlach H; Haberer G; Keeble-Gagnère G; Mayer KFX; Ormanbekova D; Paux E; Prade V; Šimková H; Wicker T; Automated annotation; Choulet F; Spannagl M; Swarbreck D; Rimbert H; Felder M; Guilhot N; Gundlach H; Haberer G; Kaithakottil G; Keilwagen J; Lang D; Leroy P; Lux T; Mayer KFX; Twardziok S; Venturini L; Manual gene curation; Appels R; Rimbert H; Choulet F; Juhász A; Keeble-Gagnère G; Subgenome comparative analyses; Choulet F; Spannagl M; Lang D; Abrouk M; Haberer G; Keeble-Gagnère G; Mayer KFX; Wicker T; Transposable elements; Choulet F; Wicker T; Gundlach H; Lang D; Spannagl M; Phylogenomic analyses; Lang D; Spannagl M; Appels R; Fischer I; Transcriptome analyses; RNA-seq data; Uauy C, Borrill P; Ramirez-Gonzalez RH; Appels R; Arnaud D; Chalabi S; Chalhoub B; Choulet F; Cory A; Datla R; Davey MW; Hayden M; Jacobs J; Lang D; Robinson SJ; Spannagl M; Steuernagel B; Tibbits J; Tiwari V; van Ex F; Wulff BBH; Whole-genome methylome; Pozniak CJ; Robinson SJ; Sharpe AG; Cory A; Histone mark analyses; Benhamed M; Paux E; Bendahmane A; Concia L; Latrasse D; BAC chromosome MTP; IWGSC–Bayer Whole-Genome Profiling; WGP) tags; Rogers J; Jacobs J; Alaux M; Appels R; Bartoš J; Bellec A; Berges H; Doležel J; Feuillet C; Frenkel Z; Gill B; Korol A; Letellier T; Olsen OA; Šimková H; Singh K; Valárik M; van der Vossen E; Vautrin S; Weining S; Chromosome LTC mapping; physical mapping quality control; Korol A; Frenkel Z; Fahima T; Glikson V; Raats D; Rogers J; RH mapping; Tiwari V; Gill B; Paux E; Poland J; Optical mapping; Doležel J; Číhalíková J; Šimková H; Toegelová H; Vrána J; Recombination analyses; Sourdille P; Darrier B; Gene family analyses; Appels R; Spannagl M; Lang D; Fischer I; Ormanbekova D; Prade V; CBF gene family; Barabaschi D; Cattivelli L; Dehydrin gene family; Hernandez P; Galvez S; Budak H; NLR gene family; Steuernagel B; Jones JDG; Witek K; Wulff BBH; Yu G; PPR gene family; Small I; Melonek J; Zhou R; Prolamin gene family; Juhász A; Belova T; Appels R; Olsen OA; WAK gene family; Kanyuka K; King R; Stem solidness; S; QTL team; Nilsen K; Walkowiak S; Pozniak CJ; Cuthbert R; Datla R; Knox R; Wiebe K; Xiang D; Flowering locus C (FLC) gene team; Rohde A; Golds T; Genome size analysis; Doležel J; Čížková J; Tibbits J; MicroRNA; tRNA annotation; Budak H; Akpinar BA; Biyiklioglu S; Genetic maps; mapping; Muehlbauer G; Poland J; Gao L; Gutierrez-Gonzalez J; N'Daiye A; BAC libraries; chromosome sorting; Doležel J; Šimková H; Číhalíková J; Kubaláková M; Šafář J; Vrána J; BAC pooling; BAC library repository,and access; Berges H; Bellec A; Vautrin S; IWGSC sequence; data repository and access; Alaux M; Alfama F; Adam-Blondon AF; Flores R; Guerche C; Letellier T; Loaec M; Quesneville H; Physical maps; BAC-based sequences; A BAC sequencing; and assembly; Pozniak CJ; Sharpe AG; Walkowiak S; Budak H; Condie J; Ens J; Koh C; Maclachlan R; Tan Y; Wicker T; B BAC sequencing; and assembly; Choulet F; Paux E; Alberti A; Aury JM; Balfourier F; Barbe V; Couloux A; Cruaud C; Labadie K; Mangenot S; Wincker P; D; D; a; D physical mapping; Gill B; Kaur G; Luo M; Sehgal S; AL physical mapping; Singh K; Chhuneja P; Gupta OP; Jindal S; Kaur P; Malik P; Sharma P; Yadav B; AS physical mapping; Singh NK; Khurana J; Chaudhary C; Khurana P; Kumar V; Mahato A; Mathur S; Sevanthi A; Sharma N; Tomar RS; D; BL,and; DL IWGSC–Bayer Whole-Genome Profiling (WGP; physical maps; Rogers J; Jacobs J; Alaux M; Bellec A; Berges H; Doležel J; Feuillet C; Frenkel Z; Gill B; Korol A; van der Vossen E; Vautrin S; AL physical mapping; Gill B; Kaur G; Luo M; Sehgal S; DS physical mapping; BAC sequencing; and assembly; Bartoš J; Holušová K; Plíhal O; DL BAC sequencing; a; d assembly; Clark MD; Heavens D; Kettleborough G; Wright J; A physical mapping; BAC sequencing,assembly; annotation; Valárik M; Abrouk M; Balcárková B; Holušová K; Hu Y; Luo M; BS BAC sequencing; and assembly; Salina E; Ravin N; Skryabin K; Beletsky A; Kadnikov V; Mardanov A; Nesterov M; Rakitin A; Sergeeva E; B BAC sequencing; and assembly; Handa H; Kanamori H; Katagiri S; Kobayashi F; Nasuda S; Tanaka T; Wu J; A physical mapping; BAC sequencing; Appels R; Hayden M; Keeble-Gagnère G; Rigault P; Tibbits J; B physical mapping; BAC sequencing; and assembly; Olsen OA; Belova T; Cattonaro F; Jiumeng M; Kugler K; Mayer KFX; Pfeifer M; Sandve S; Xun X; Zhan B; DS BAC sequencing; and assembly; Šimková H; Abrouk M; Batley J; Bayer PE; Edwards D; Hayashi S; Toegelová H; Tulpová Z; Visendi P; DL physical mapping; BAC sequencing; Weining S; Cui L; Du X; Feng K; Nie X; Tong W; Wang L, Figures; Borrill P; Gundlach H; Galvez S; Kaithakottil G; Lang D; Lux T; Mascher M; Ormanbekova D; Prade V; Ramirez-Gonzalez RH; Spannagl M; Stein N; Uauy C; Venturini L; Manuscript; writing team; Stein N; Appels R; Eversole K; Rogers J; Borrill P; Cattivelli L; Choulet F; Hernandez P; Kanyuka K; Lang D; Mascher M; Nilsen K; Paux E; Pozniak CJ; Ramirez-Gonzalez RH; Šimková H; Small I; Spannagl M; Swarbreck D; Uauy C

  Science (New York, N.Y.), 17 Aug. 2018, Peer-reviewed

  
• Cytological observation of chromosome breakage in wheat male gametophytes caused by gametocidal action of Aegilops triuncialis-derived chromosome 3C(t)

  Kazuki Murata; Shota Watanabe; Hisashi Tsujimoto; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Jun. 2018, Peer-reviewed

  
• An early-flowering einkorn wheat mutant with deletions of PHYTOCLOCK 1/LUX ARRHYTHMO and VERNALIZATION 2 exhibits a high level of VERNALIZATION 1 expression induced by vernalization

  Aiko Nishiura; Satoshi Kitagawa; Mina Matsumura; Yusuke Kazama; Tomoko Abe; Nobuyuki Mizuno; Shuhei Nasuda; Koji Murai

  Journal of Plant Physiology, 01 Mar. 2018, Peer-reviewed

  
• Direct interaction between VRN1 protein and the promoter region of the wheat FT gene.

  Tanaka C; Itoh T; Iwasaki Y; Mizuno N; Nasuda S; Murai K

  Genes & genetic systems, Jan. 2018, Peer-reviewed

  
• Three dominant awnless genes in common wheat: Fine mapping, interaction and contribution to diversity in awn shape and length

  Motohiro Yoshioka; Julio C. M. Iehisa; Ryoko Ohno; Tatsuro Kimura; Hiroyuki Enoki; Satoru Nishimura; Shuhei Nasuda; Shigeo Takumi

  PLOS ONE, Apr. 2017, Peer-reviewed

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• Loss-of-Function Mutations in Three Homoeologous PHYTOCLOCK 1 Genes in Common Wheat Are Associated with the Extra-Early Flowering Phenotype

  Nobuyuki Mizuno; Mika Kinoshita; Saki Kinoshita; Hidetaka Nishida; Masaya Fujita; Kenji Kato; Koji Murai; Shuhei Nasuda

  PLoS One, Oct. 2016, Peer-reviewed

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• Variation in abscisic acid responsiveness at the early seedling stage is related to line differences in seed dormancy and in expression of genes involved in abscisic acid responses in common wheat

  Hirokazu Yokota; Julio C.M. Iehisa; Ryo Nishijima; Miyuki Nitta; Shotaro Takenaka; Shuhei Nasuda; Shigeo Takumi

  Journal of Cereal Science, 01 Sep. 2016, Peer-reviewed

  
• Comparative study of the structure of chromosome 1R derived from Secale montanum and Secale cereale

  Jianjian Li; Yadav Prasad Gyawali; Ruonan Zhou; Nils Stein; Shuhei Nasuda; Takashi R. Endo

  PLANT BREEDING, Dec. 2015, Peer-reviewed

  
• A high-resolution physical map integrating an anchored chromosome with the BAC physical maps of wheat chromosome 6B.

  Fuminori Kobayashi; Jianzhong Wu; Hiroyuki Kanamori; Tsuyoshi Tanaka; Satoshi Katagiri; Wataru Karasawa; Satoko Kaneko; Shota Watanabe; Toyotaka Sakaguchi; Yumiko Hanawa; Hiroko Fujisawa; Kanako Kurita; Chikako Abe; Julio C M Iehisa; Ryoko Ohno; Jan Šafář; Hana Šimková; Yoshiyuki Mukai; Masao Hamada; Mika Saito; Goro Ishikawa; Yuichi Katayose; Takashi R Endo; Shigeo Takumi; Toshiki Nakamura; Kazuhiro Sato; Yasunari Ogihara; Katsuyuki Hayakawa; Jaroslav Doležel; Shuhei Nasuda; Takashi Matsumoto; Hirokazu Handa

  BMC genomics, 12 Aug. 2015, Peer-reviewed

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• Resistance to wheat yellow mosaic virus in Madsen wheat is controlled by two major complementary QTLs

  Takako Suzuki; Miyuki-Nitta Murai; Takeshi Hayashi; Shuhei Nasuda; Yasuhiro Yoshimura; Takao Komatsuda

  THEORETICAL AND APPLIED GENETICS, Aug. 2015, Peer-reviewed

  
• Dissection of barley chromosomes 1H and 6H by the gametocidal system

  Ayaka Ishihara; Nobuyuki Mizuno; Rafiqul A. K. M. Islam; Jaroslav Dolezel; Takashi R. Endo; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Oct. 2014, Peer-reviewed

  
• A High-Density Genetic Map with Array-Based Markers Facilitates Structural and Quantitative Trait Locus Analyses of the Common Wheat Genome

  Julio Cesar Masaru Iehisa; Ryoko Ohno; Tatsuro Kimura; Hiroyuki Enoki; Satoru Nishimura; Yuki Okamoto; Shuhei Nasuda; Shigeo Takumi

  DNA RESEARCH, Oct. 2014, Peer-reviewed

  
• Level of VERNALIZATION 1 expression is correlated with earliness in extra early-flowering mutant wheat lines

  Aiko Nishiura; Yusuke Kazame; Tomoko Abe; Nobuyuki Mizuno; Shuhei Nasuda; Koji Murai

  BREEDING SCIENCE, Sep. 2014, Peer-reviewed

  
• QTL analysis of genetic loci affecting domestication-related spike characters in common wheat

  Mazen Katkout; Masahiro Kishii; Kanako Kawaura; Kouhei Mishina; Shun Sakuma; Kazuko Umeda; Shigeo Takumi; Miyuki Nitta; Shuhei Nasuda; Yasunari Ogihara

  GENES & GENETIC SYSTEMS, Jun. 2014, Peer-reviewed

  
• Next-Generation Survey Sequencing and the Molecular Organization of Wheat Chromosome 6B

  Tsuyoshi Tanaka; Fuminori Kobayashi; Giri Prasad Joshi; Ritsuko Onuki; Hiroaki Sakai; Hiroyuki Kanamori; Jianzhong Wu; Hana Simkova; Shuhei Nasuda; Takashi R. Endo; Katsuyuki Hayakawa; Jaroslav Dolezel; Yasunari Ogihara; Takeshi Itoh; Takashi Matsumoto; Hirokazu Handa

  DNA RESEARCH, Apr. 2014, Peer-reviewed

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• Genome-wide marker development for the wheat D genome based on single nucleotide polymorphisms identified from transcripts in the wild wheat progenitor Aegilops tauschii

  Julio Cesar Masaru Iehisa; Akifumi Shimizu; Kazuhiro Sato; Ryo Nishijima; Kouhei Sakaguchi; Ryusuke Matsuda; Shuhei Nasuda; Shigeo Takumi

  THEORETICAL AND APPLIED GENETICS, Feb. 2014, Peer-reviewed

  
• Genetic Mechanisms of Allopolyploid Speciation Through Hybrid Genome Doubling: Novel Insights from Wheat (Triticum and Aegilops) Studies

  Yoshihiro Matsuoka; Shigeo Takumi; Shuhei Nasuda

  INTERNATIONAL REVIEW OF CELL AND MOLECULAR BIOLOGY, VOL 309, 2014, Peer-reviewed

  
• Differential contribution of two Ppd-1 homoeoalleles to early-flowering phenotype in Nepalese and Japanese varieties of common wheat

  Anh T. Nguyen; Julio C. M. Iehisa; Nobuyuki Mizuno; Miyuki Nitta; Shuhei Nasuda; Shigeo Takumi

  BREEDING SCIENCE, Dec. 2013, Peer-reviewed

  
• Homoeologous relationship of rye chromosome arms as detected with wheat PLUG markers

  Jianjian Li; Takashi R. Endo; Mika Saito; Goro Ishikawa; Toshiki Nakamura; Shuhei Nasuda

  Chromosoma, Dec. 2013, Peer-reviewed

  
• Dissection of rye chromosomes by the gametocidal system

  Jianjian Li; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2013, Peer-reviewed

  
• Development of a self-fertile ditelosomic line for the long arm of chromosome 4B and its characterization using SSR markers

  Giri P. Joshi; Jianjian Li; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Oct. 2013, Peer-reviewed

  
• PCR and sequence analysis of barley chromosome 2H subjected to the gametocidal action of chromosome 2C

  Giri Prasad Joshi; Takashi R. Endo; Shuhei Nasuda

  THEORETICAL AND APPLIED GENETICS, Sep. 2013, Peer-reviewed

  
• Genetic Basis for Spontaneous Hybrid Genome Doubling during Allopolyploid Speciation of Common Wheat Shown by Natural Variation Analyses of the Paternal Species

  Yoshihiro Matsuoka; Shuhei Nasuda; Yasuyo Ashida; Miyuki Nitta; Hisashi Tsujimoto; Shigeo Takumi; Taihachi Kawahara

  PLOS ONE, Aug. 2013, Peer-reviewed

  
• MOLECULAR GENETIC ANALYSIS OF DOMESTICATION TRAITS IN EMMER WHEAT. I: MAP CONSTRUCTION AND QTL ANALYSIS USING AN F-2 PUPULATION

  Phan Thi Thanh; Cristian Ioan Vladutu; Shahryar F. Kianian; Pham Thien Thanh; Takashige Ishii; Miyuki Nitta; Shuhei Nasuda; Naoki Mori

  BIOTECHNOLOGY & BIOTECHNOLOGICAL EQUIPMENT, Apr. 2013, Peer-reviewed

  
• Discovery of High-Confidence Single Nucleotide Polymorphisms from Large-Scale De Novo Analysis of Leaf Transcripts of Aegilops tauschii, A Wild Wheat Progenitor

  Iehisa Julio Cesar Masaru; Shimizu Akifumi; Sato Kazuhiro; Nasuda Shuhei; Takumi Shigeo

  DNA RESEARCH, Dec. 2012, Peer-reviewed

  
• Novel QTLs for growth angle of seminal roots in wheat (Triticum aestivum L.)

  Alhosein Hamada; Miyuki Nitta; Shuhei Nasuda; Kenji Kato; Masaya Fujita; Hitoshi Matsunaka; Yutaka Okumoto

  PLANT AND SOIL, May 2012, Peer-reviewed

  
• A wheat homologue of PHYTOCLOCK 1 is a candidate gene conferring the early heading phenotype to einkorn wheat.

  Nobuyuki Mizuno; Miyuki Nitta; Kazuhiro Sato; Shuhei Nasuda

  Genes & genetic systems, 2012, Peer-reviewed

  
• Dissection and cytological mapping of barley chromosome 2H in the genetic background of common wheat

  Giri Prasad Joshi; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Aug. 2011, Peer-reviewed

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• Plant B chromosomes.

  A. Houben; S. Nasuda; T.R. Endo

  Methods in molecular biology (Clifton, N.J.), 2011, Peer-reviewed

  
• The evolution of the hexaploid grass Zingeria kochii (Mez) Tzvel. (2n=12) was accompanied by complex hybridization and uniparental loss of ribosomal DNA

  Violetta Kotseruba; Klaus Pistrick; Frank R. Blattner; Katrin Kumke; Oda Weiss; Twan Rutten; Joerg Fuchs; Takashi Endo; Shuhei Nasuda; Anahit Ghukasyan; Andreas Houben

  MOLECULAR PHYLOGENETICS AND EVOLUTION, Jul. 2010, Peer-reviewed

  
• Molecular mapping of the suppressor gene Igc1 to the gametocidal gene Gc3-C1 in common wheat

  Soichi Yamano; Miyuki Nitta; Hisashi Tsujimoto; Goro Ishikawa; Toshiki Nakamura; Takashi R. Endo; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Feb. 2010, Peer-reviewed

  
• Dissection of barley chromosome 4H in common wheat by the gametocidal system and cytological mapping of chromosome 4H with EST markers

  Masaya Sakata; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Feb. 2010, Peer-reviewed

  
• A Cytological Map of the Short Arm of Rye Chromosome 1R Constructed with 1R Dissection Stocks of Common Wheat and PCR-Based Markers

  Y. P. Gyawali; S. Nasuda; T. R. Endo

  CYTOGENETIC AND GENOME RESEARCH, 2010, Peer-reviewed

  
• Cytological dissection and molecular characterization of chromosome 1R derived from 'Burgas 2' common wheat

  Yadav Prasad Gyawali; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2009, Peer-reviewed

  
• Dissection of barley chromosome 3H in common wheat and a comparison of 3H physical and genetic maps.

  Kazuhiko Sakai; Shuhei Nasuda; Kazuhiro Sato; Takashi R Endo

  Genes & genetic systems, Feb. 2009, Peer-reviewed

  
• Localization of anchor loci representing five hundred annotated rice genes to wheat chromosomes using PLUG markers

  Goro Ishikawa; Toshiki Nakamura; Taizo Ashida; Mika Saito; Shuhei Nasuda; Takashi R. Endo; Jianzhong Wu; Takashi Matsumoto

  THEORETICAL AND APPLIED GENETICS, Feb. 2009, Peer-reviewed

  
• Dissection of rye chromosome 1R in common wheat

  Masashi Tsuchida; Takehiro Fukushima; Shuhei Nasuda; Ali Masoudi-Nejad; Goro Ishikawa; Toshiki Nakamura; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Feb. 2008, Peer-reviewed

  
• Dissection of rye B chromosomes, and nondisjunction properties of the dissected segments in a common wheat background

  Takashi Ryu Endo; Shuhei Nasuda; Neil Jones; Quanwen Dou; Atsushi Akahori; Munenori Wakimoto; Hiroyuki Tanaka; Katsumasa Niwa; Hishashi Tsujimoto

  GENES & GENETIC SYSTEMS, Feb. 2008, Peer-reviewed

  
• Structures of the three homoeologous loci of wheat benzoxazinone biosynthetic genes TaBx3 and TaBx4 and characterization of their promoter sequences

  Taiji Nomura; Shuhei Nasuda; Kanako Kawaura; Yasunari Ogihara; Nobuhiko Kato; Fumihiko Sato; Toshio Kojima; Atsushi Toyoda; Hajime Iwamura; Takashi R. Endo

  THEORETICAL AND APPLIED GENETICS, Feb. 2008, Peer-reviewed

  
• CENH3 interacts with the centromeric retrotransposon cereba and GC-rich satellites and locates to centromeric substructures in barley

  Andreas Houben; Elizabeth Schroeder-Reiter; Kiyotaka Nagaki; Shuhei Nasuda; Gerhard Wanner; Minoru Murata; Takashi R. Endo

  CHROMOSOMA, Jun. 2007, Peer-reviewed

  
• The einkorn wheat (Triticum monococcum) mutant, maintained vegetative phase, is caused by a deletion in the VRN1 gene

  Naoki Shitsukawa; Chihiro Ikari; Sanae Shimada; Satoshi Kitagawa; Koichi SakaMoto; Hiroyuki Saito; Hiromichi Ryuto; Nobuhisa Fukunishi; Tomoko Abe; Shigeo Takumi; Shuhei Nasuda; Koji Murai

  GENES & GENETIC SYSTEMS, Apr. 2007, Peer-reviewed

  
• Dissection of barley chromosome 5H in common wheat.

  Taizo Ashida; Shuhei Nasuda; Kazuhiro Sato; Takashi R Endo

  Genes & genetic systems, Apr. 2007, Peer-reviewed

  
• Duplication of centromeric histone H3 (HTR12) gene in Arabidopsis halleri and A-lyrata, plant species with multiple centromeric satellite sequences

  Akira Kawabe; Shuhei Nasuda; Deborah Charlesworth

  GENETICS, Dec. 2006, Peer-reviewed

  
• Chromosome-specific satellite sequences in Turritis glabra

  Akira Kawabe; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Aug. 2006, Peer-reviewed

  
• Polymorphic chromosomal specificity of centromere satellite families in Arabidopsis halleri ssp gemmifera

  A Kawabe; S Nasuda

  GENETICA, Mar. 2006, Peer-reviewed

  
• An alternative to radiation hybrid mapping for large-scale genome analysis in barley

  A Masoudi-Nejad; S Nasuda; MT Bihoreau; R Waugh; TR Endo

  MOLECULAR GENETICS AND GENOMICS, Dec. 2005, Peer-reviewed

  
• Chromosomal assignment and deletion mapping of barley EST markers.

  Shuhei Nasuda; Yukari Kikkawa; Taizo Ashida; A K M Rafiqul Islam; Kazuhiro Sato; Takashi R Endo

  Genes & genetic systems, Oct. 2005, Peer-reviewed

  
• Structure and genomic organization of centromeric repeats in Arabidopsis species

  A Kawabe; S Nasuda

  MOLECULAR GENETICS AND GENOMICS, Feb. 2005, Peer-reviewed

  
• Structural dynamics of cereal mitochondrial genomes as revealed by complete nucleotide sequencing of the wheat mitochondrial genome

  Y Ogihara; Y Yamazaki; K Murai; A Kanno; T Terachi; T Shiina; N Miyashita; S Nasuda; C Nakamura; N Mori; S Takumi; M Murata; S Futo; K Tsunewaki

  NUCLEIC ACIDS RESEARCH, 2005, Peer-reviewed

  
• Durum wheat as a candidate for the unknown female progenitor of bread wheat: an empirical study with a highly fertile F-1 hybrid with Aegilops tauschii Coss.

  Y Matsuoka; S Nasuda

  THEORETICAL AND APPLIED GENETICS, Nov. 2004, Peer-reviewed

  
• A PCR-based marker for targeting small rye segments in wheat background

  MC Katto; TR Endo; S Nasuda

  GENES & GENETIC SYSTEMS, Aug. 2004, Peer-reviewed

  
• A direct repeat sequence associated with the centromeric retrotransposons in wheat

  Hidetaka Ito; Shuhei Nasuda; Takashi R. Endo

  Genome, Aug. 2004, Peer-reviewed

  
• Characterization of the genes encoding for MAD2 homologues in wheat

  J Kimbara; TR Endo; S Nasuda

  CHROMOSOME RESEARCH, 2004, Peer-reviewed

  
• Characterization of a knock-out mutation at the Gc2 locus in wheat

  B Friebe; P Zhang; S Nasuda; BS Gill

  CHROMOSOMA, May 2003, Peer-reviewed

  
• Molecular cloning, sequencing and chromosome mapping of a 1A-encoded omega-type prolamin sequence from wheat

  A Masoudi-Nejad; S Nasuda; A Kawabe; TR Endo

  GENOME, Aug. 2002, Peer-reviewed

  
• Transfer of rye chromosome segments to wheat by a gametocidal system

  A Masoudi-Nejad; S Nasuda; RA McIntosh; TR Endo

  CHROMOSOME RESEARCH, 2002, Peer-reviewed

  
• Deletion-based physical mapping of barley chromosome 7H

  N Serizawa; S Nasuda; F Shi; TR Endo; S Prodanovic; Schubert, I; G Kunzel

  THEORETICAL AND APPLIED GENETICS, Nov. 2001, Peer-reviewed

  
• Barley chromosome addition lines of wheat for screening of AFLP markers on barley chromosomes

  N Serizawa; S Nasuda; TR Endo

  GENES & GENETIC SYSTEMS, Apr. 2001, Peer-reviewed

  
• The Au family, a novel short interspersed element (SINE) from Aegilops umbellulata

  Y Yasui; S Nasuda; Y Matsuoka; T Kawahara

  THEORETICAL AND APPLIED GENETICS, Mar. 2001, Peer-reviewed

  
• Identification of AFLP markers on the satellite region of chromosome 1BS in wheat

  HN Zhang; S Nasuda; TR Endo

  GENOME, Oct. 2000, Peer-reviewed

  
• Development of a complete set of Triticum aestivum-Aegilops speltoides chromosome addition lines

  B Friebe; LL Qi; S Nasuda; P Zhang; NA Tuleen; BS Gill

  THEORETICAL AND APPLIED GENETICS, Jul. 2000, Peer-reviewed

  
• A high-density genetic linkage map of Aegilops tauschii, the D-genome progenitor of bread wheat

  EV Boyko; KS Gill; L Mickelson-Young; S Nasuda; WJ Raupp; JN Ziegle; S Singh; DS Hassawi; AK Fritz; D Namuth; NLV Lapitan; BS Gill

  THEORETICAL AND APPLIED GENETICS, Jul. 1999, Peer-reviewed

  
• Detection of terminal deletions in barley chromosomes by the PCR-based method

  M Yoshino; S Nasuda; TR Endo

  GENES & GENETIC SYSTEMS, Jun. 1998, Peer-reviewed

  
• Gametocidal genes induce chromosome breakage in the interphase prior to the first mitotic cell division of the male gametophyte in wheat

  S Nasuda; B Friebe; BS Gill

  GENETICS, Jun. 1998, Peer-reviewed

  
• Cloning and characterization of a centromere-specific repetitive DNA element from Sorghum bicolor

  JT Miller; SA Jackson; S Nasuda; BS Gill; RA Wing; J Jiang

  THEORETICAL AND APPLIED GENETICS, May 1998, Peer-reviewed

  
• Structural rearrangement in chromosome 2M of Aegilops comosa has prevented the utilization of the Compair and related wheat-Ae-comosa translocations in wheat improvement

  S Nasuda; B Friebe; W Busch; RG Kynast; BS Gill

  THEORETICAL AND APPLIED GENETICS, May 1998, Peer-reviewed

  
• Detection of the Sec-1 locus of rye by a PCR-based method

  Y Shimizu; S Nasuda; TR Endo

  GENES & GENETIC SYSTEMS, Aug. 1997, Peer-reviewed

  
• Isolation, cloning and gel blot analysis of high molecular weight wheat DNA

  KS Gill; S Nasuda; BS Gill

  BIOTECHNIQUES, Oct. 1996, Peer-reviewed

  
• CYTOLOGICALLY BASED PHYSICAL MAPS OF THE GROUP-3 CHROMOSOMES OF WHEAT

  DE DELANEY; S NASUDA; TR ENDO; BS GILL; SH HULBERT

  THEORETICAL AND APPLIED GENETICS, Oct. 1995, Peer-reviewed

  
• CYTOLOGICALLY BASED PHYSICAL MAPS OF THE GROUP-2 CHROMOSOMES OF WHEAT

  DE DELANEY; S NASUDA; TR ENDO; BS GILL; SH HULBERT

  THEORETICAL AND APPLIED GENETICS, Sep. 1995, Peer-reviewed

  
• CHROMOSOMAL LOCATIONS OF THE GENES FOR HISTONES AND A HISTONE GENE-BINDING PROTEIN FAMILY HBP-1 IN COMMON WHEAT

  S NASUDA; YG LIU; A SAKAMOTO; T NAKAYAMA; M IWABUCHI; K TSUNEWAKI

  PLANT MOLECULAR BIOLOGY, Jul. 1993, Peer-reviewed

  
• WHEAT PHYLOGENY DETERMINED BY RFLP ANALYSIS OF NUCLEAR-DNA .1. EINKORN WHEAT

  S TAKUMI; S NASUDA; YG LIU; K TSUNEWAKI

  JAPANESE JOURNAL OF GENETICS, Feb. 1993, Peer-reviewed

  

Misc.

• NBRP-Wheat: Development of large-scale mapping populations of wheat genetic resources for future research

  太田敦士; 太田敦士; 新田みゆき; 新田みゆき; 那須田周平; 那須田周平; 吉田健太郎; 吉田健太郎; 堺俊之; 堺俊之; 竹中祥太朗; 松岡由浩; 森直樹; 西嶋遼; 寺内良平; 寺内良平

  育種学研究, 2024

  
• Development of a nested association mapping (NAM) population representing genetic diversity of Asian common wheat

  新田みゆき; 竹中祥太朗; SU Z.; 黒木健; 黒木健; 大西一光; 松中仁; 那須田周平

  育種学研究, 2021

  
• Investigation of ear emergence in high-density wheat fields using UAV

  GUO W.; WANG H.; 黒木健; 黒木健; 吉岡俊輔; 新田みゆき; NIE J.; 竹中祥太朗; 石井昌範; 清水健太郎; 清水健太郎; 那須田周平; 岩田洋佳

  育種学研究, 2021

  
• Short-range remote sensing of wheat NAM population to analyze heading and flowering periods through deep learning

  黒木健; 黒木健; YAN K.; 吉岡俊輔; 新田みゆき; NIE J.; 石井昌範; WANG H.; 竹中祥太朗; 岩田洋佳; 清水健太郎; 清水健太郎; 那須田周平; GUO W.

  育種学研究, 2021

  
• A high-through-put phenotyping of vegetation cover by a UAV in high-density plots of a hexaploidy wheat NAM population

  吉岡俊輔; 黒木健; 黒木健; 新田みゆき; NIE J.; 石井昌範; 竹中祥太朗; 清水健太郎; 清水健太郎; 岩田洋佳; GUO W.; 那須田周平

  育種学研究, 2021

  
• 残差解析の活用によるコムギ遺伝資源の放射性セシウム蓄積性の推定

  久保堅司; 小林浩幸; 新田みゆき; 竹中祥太朗; 那須田周平; 藤村恵人; 高木恭子; 永田修; 太田健; 信濃卓郎

  農研機構東北農業研究センター成果情報(Web), 2020

  
• A high-throughput phenotyping of the hexaploid wheat NAM population during tillering stage by UAVs and their correlation with yield-related traits

  吉岡俊輔; 黒木健; 黒木健; 新田みゆき; NIE J.; 石井昌範; 角井宏行; 岡田萌子; 岡田萌子; 岡田萌子; 竹中祥太朗; 清水健太郎; 清水健太郎; 岩田洋佳; WEI G.; 那須田周平

  育種学研究, 2023

  
• 8-1-2 圃場内における交換性カリ含量のばらつきの補正によるコムギの放射性セシウム蓄積性の品種間差異の解析（8-1 環境保全 2020年度岡山大会）

  久保 堅司; 信濃 卓郎; 小林 浩幸; 新田 みゆき; 竹中 祥太朗; 那須田 周平; 藤村 恵人; 髙木 恭子; 永田 修; 太田 健

  日本土壌肥料学会講演要旨集, 2020

  
• Chloroplast DNA variationn in Aegilops caudata L.

  NASUDA S.

  Jpn. J. Genet., 1991

  
• Identification of the chromosome arms and the position of centromeres in the RFLP maps of common wheat.

  NASUDA S.

  Nuclear and Organellar Genomes of Wheat Species, 1991

  
• Identifying causal loci of the hybrid necrosis between the A^uA^uBBA^mA^m synthetic hexaploids and common wheat

  與田悠人; 野口微風子; 古村翔也; 村田和樹; 岡田萌子; 岡田萌子; 岡田萌子; 水野信之; 小林史典; 西村和紗; 井上喜博; 那須田周平; 松岡由浩; 吉田健太郎

  育種学研究, 2023

  
• 残差解析の活用によるコムギ遺伝資源の放射性セシウム蓄積性の推定

  久保堅司; 小林浩幸; 新田みゆき; 竹中祥太朗; 那須田周平; 藤村恵人; 高木恭子; 永田修; 太田健; 信濃卓郎

  東北農業研究成果情報(Web), 2020

  
• Identification of a candidate gene encoding for the breaking factor of the gametocidal gene Gc2 in wheat

  吉岡資洋; 水野信之; FRIEBE Bernd; 村田和樹; 酒井那乙斗; 内野智樹; 山田創; 橋本亜美; 安倍史高; 佐藤和広; 佐藤豊; GILL Bikram S.; 那須田周平

  育種学研究, 2023

  
• パンコムギ6B染色体のBAC物理地図の構築

  小林史典; 片桐敏; 唐澤渉; 塙優美子; 藤澤弘子; 伊藤幸代; 向井喜之; 金子聡子; 那須田周平; 早川克志; DOLEZEL Jaroslav; WU J.; 松本隆

  育種学研究, 2012

  
• ISBP(Insertion Site Based Polymorphism)を用いたコムギ6B染色体特異的マーカー開発と評価

  金子聡子; 阿部千香子; 早川克志; 小林史典; 半田裕一; 田中剛; 坂井寛章; 伊藤剛; 大野良子; 宅見薫雄; 那須田周平

  育種学研究, 2012

  
• Genetic analysis of heat germination tolerance in bread wheat

  塚田美彩子; 松永幸子; 只野翔大; 山崎裕司; GORAFI Yasir; 新田みゆき; 那須田周平; 明石欣也; 辻本壽; 辻本壽

  育種学研究, 2022

  
• コムギ系統“超極早生”がもつ劣性早生遺伝子のSSRマッピング

  川上耕平; 竹口真吉; 新田みゆき; 西田英隆; 藤田雅也; 那須田周平; 明石由香利; 加藤鎌司

  育種学研究, 2012

  
• コムギ系統“超極早生”がもつ劣性早生遺伝子の連鎖SSRマーカー

  川上耕平; 新田みゆき; 西田英隆; 藤田雅也; 那須田周平; 明石由香利; 加藤鎌司

  育種学研究, 2011

  
• 「Madsen」由来のコムギ縞萎縮病抵抗性遺伝子と連鎖するDNAマーカーの開発

  鈴木孝子; 新田みゆき; 那須田周平; 吉村康弘

  育種学研究, 2010

  
• コムギ祖先種における2タイプのセントロメア特異的ヒストンH3のDNA変異解析

  水野信之; 水野信之; 河邊昭; EVTUSHENKO Elena; HOUBEN Andreas; 遠藤隆; 那須田周平

  育種学研究, 2012

  
• de novo genome assembly of a Japanese wheat cultivar Norin 61 in the international wheat 10+ genomes project

  清水健太郎; 清水健太郎; 半田裕一; 半田裕一; 那須田周平; 瀬々潤; 瀬々潤; 川浦香奈子; 辻寛之; 爲重才覚; 坂智広; DARIO Copetti; 畠山剛臣; 畠山剛臣; 清水(稲継)理恵; CATHARINE Aquino; 小林史典; GUTIERREZ-GONZALEZ Juan; STEIN Nils; DELOREAN Emily; PAAPE Tim; HALSTEAD-NUSSLOCH Gwyneth; HABERER Georg; SPANNAGL Manuel; MAYER Klaus; MASCHER Martin; HIMMELBACH Axel; PADMARASU Sudharsan; WICKER Thomas; POZNIAK Curtis J.

  育種学研究, 2020

  
• コムギ花成促進因子VRN1タンパク質は直接的に花成ホルモン遺伝子WFTのプロモーター配列に結合する

  田中千裕; 伊藤貴文; 岩崎行玄; 水野信之; 那須田周平; 村井耕二

  育種学研究, 2017

  
• コムギ全染色体の参照ゲノム配列情報

  小林史典; 半田裕一; 金森裕之; 片桐敏; 田中剛; 呉健忠; 那須田周平

  農研機構次世代作物開発研究センター成果情報(Web), 2018

  
• 圃場内における交換性カリ含量のばらつきの補正によるコムギの放射性セシウム蓄積性の品種間差異の解析

  久保堅司; 小林浩幸; 小林浩幸; 新田みゆき; 竹中祥太朗; 竹中祥太朗; 那須田周平; 藤村恵人; 高木恭子; 永田修; 太田健; 太田健; 信濃卓郎; 信濃卓郎

  日本土壌肥料学会講演要旨集(Web), 2020

  
• Map-based identification of earliness gene PCL1-3B in a Japanese breeding line “Chogokuwase”

  Hidetaka Nishida; Numanul Haque; Hinako Sato; Nobuyuki Mizuno; Masaya Fujita; Shuhei Nasuda; Kenji Kato

  1st International Wheat Conference Poster Proceedings, Jul. 2019

  
• Perspectives on the use of bioresources in breeding sciences: Lessons from successful studies

  Nasuda Shuhei; Ito Emi; Sato Yutaka; Hisano Hiroshi; Sato Kazuhiro; Komatsuda Takao; Ishikawa Ryo; Hashiguchi Masatsugu; Suzuki Akihiro; Hoshikawa Ken

  Breeding Research, 2019

  
• LUX/PCL1はコムギの超極早生遺伝子である

  佐藤日向子; HAQUE G. K. M. N; 西田英隆; 水野信之; 藤田雅也; 那須田周平; 加藤鎌司

  育種学研究, 22 Sep. 2018

  
• NBRP‐KOMUGI保有の世界のデュラム小麦80系統の福井県における栽培特性調査

  村井耕二; 新田みゆき; 竹中祥太朗; 那須田周平

  育種学研究, 25 Mar. 2018

  
• コムギ新規早生遺伝子PCL1‐3A,PCL1‐3Dの早生対立変異の地理的分布と起源

  加藤鎌司; HAQUE G.K.M.N; 佐藤日向子; 西田英隆; 水野信之; 藤田雅也; 那須田周平

  育種学研究, 07 Oct. 2017

  
• コムギ3B染色体に座乗する「超極早生」遺伝子領域の絞り込み

  佐藤日向子; HAQUE G. K. M. N; 増田春花; 山下洋士; 西田英隆; 水野信之; 藤田雅也; 那須田周平; 加藤謙司

  育種学研究, 29 Mar. 2017

  
• RNA‐Seq法によるコムギ系統「超極早生」及びその交雑後代系統における出穂期関連遺伝子の発現比較

  西田英隆; 増田春花; 水野信之; 那須田周平; 藤田雅也; 加藤鎌司

  育種学研究, 29 Mar. 2017

  
• コムギ6B染色体上の赤さび病抵抗性遺伝子LrRW12領域のゲノム構造解析

  小林史典; 水野信之; 田中剛; 金森裕之; 片寄裕一; WU J; 佐藤和広; 那須田周平; 半田裕一

  育種学研究, 24 Sep. 2016

  
• コムギ3B染色体長腕に座乗する「超極早生」遺伝子の詳細マッピング

  増田春花; HAQUE G. K. M. N; 山下洋士; 西田英隆; 水野信之; 藤田雅也; 那須田周平; 加藤鎌司

  育種学研究, 24 Sep. 2016

  
• How to discover new genes in NGS era

  Doi Kazuyuki; Nasuda Shuhei; Ashikari Motoyuki

  Breeding Research, 2016

  
• A Review of Wheat Genome Sequencing and Perspectives for Breeding in Post-genome Era

  Shuhei Nasuda

  JOURNAL OF THE JAPANESE SOCIETY FOR FOOD SCIENCE AND TECHNOLOGY-NIPPON SHOKUHIN KAGAKU KOGAKU KAISHI, 2016

  
• Development of the BAC physical maps of wheat chromosome 6B for its genomic sequencing

  Fuminori Kobayashi; Satoshi Katagiri; Wataru Karasawa; Yumiko Hanawa; Hiroyuki Kanamori; Yukiyo Ito; Hiroko Fujisawa; Yoshiyuki Mukai; Tsuyoshi Tanaka; Satoko Kaneko; Shota Watanabe; Toyotaka Sakaguchi; Shuhei Nasuda; Katsuyuki Hayakawa; Chikako Abe; Ryoko Ohno; Julio CM Iehisa; Shigeo Takumi; Jaroslav Dolezel; Yausnari Ogihara; Takashi Matsumoto; Yuichi Katayose; Jianzhong Wu; Hirokazu Handa

  Wheat Genetics: From Genome to Field: Proceedings of the 12th International Wheat Genetics Symposium, Sep. 2015, Peer-reviewed, Invited

  
• コアコレクション選抜のためのNBRP・コムギ2倍性コムギ全系統の集団構造解析

  竹中祥太朗; 新田みゆき; 河原太八; 那須田周平

  育種学研究, 21 Mar. 2015

  
• Radiation hybrid mapping of the genes related to the gametocidal action in wheat

  Shuhei Nasuda; Shota Watanabe; Taro Igarashi; Motohiro Yoshioka; Hisashi Tsujimoto; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2014, Peer-reviewed

  
• Construction of BAC physical map and analysis of genomic structure of wheat chromosome 6B

  Kobayashi Fuminori; Kanamori Hiroyuki; Tanaka Tsuyoshi; Katagiri Satoshi; Karasawa Wataru; Watanabe Shota; Kurita Kanako; Katayose Yuichi; Ogihara Yasunari; Endo Takashi R; Dolezel Jaroslav; Hayakawa Katsuyuki; Nasuda Shuhei; Wu Jianzhong; Handa Hirokazu

  GENES & GENETIC SYSTEMS, Dec. 2014, Peer-reviewed

  
• パンコムギ品種しゅんよう/ネバリゴシDH系統の赤さび病およびうどん粉病抵抗性のQTL解析

  竹中祥太朗; 新田みゆき; 伊藤裕之; 石川吾郎; 中村俊樹; 斎藤美香; 中村和弘; 那須田周平

  育種学研究, 26 Sep. 2014

  
• 6倍性コムギの粒形に関する遺伝的解析

  吉岡資洋; 水野信之; 竹中祥太朗; 新田みゆき; LI J; 那須田周平

  育種学研究, 26 Sep. 2014

  
• コムギ育種系統「超極早生」の33染色体に見出された早生遺伝子のマッピング

  山下洋士; 竹口真吉; 西田英隆; 水野信之; 新田みゆき; 藤田雅也; 那須田周平; 加藤鎌司

  育種学研究, 26 Sep. 2014

  
• パンコムギ6B染色体のBAC物理地図の構築とゲノム構造の解析

  小林史典; 金森裕之; 田中剛; 片桐敏; 唐沢渉; 渡邉将太; 栗田加奈子; 片寄裕一; 荻原保成; 遠藤隆; JAROSLAV Dolezel; 早川克志; 那須田周平; 呉健忠; 半田裕一

  日本遺伝学会大会プログラム・予稿集, 31 Aug. 2014

  
• コアコレクション選抜のためのNBRP・コムギ4倍性コムギ全系統の集団構造解析

  竹中祥太朗; 新田みゆき; 河原太八; 那須田周平

  育種学研究, 21 Mar. 2014

  
• コムギにおける配偶子致死関連遺伝子のradiation hybrid mapping

  那須田周平; 渡邊将太; 五十嵐太郎; 吉岡資洋; 辻本壽

  日本遺伝学会大会プログラム・予稿集, 2014

  
• Polyploidization and meiotic arrest in the pollen mother cells of wheat carrying barley chromosome 1H

  Ayaka Ishihara; Shuhei Nasuda; A. K. M. R. Islam; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2013, Peer-reviewed

  
• コムギ6B染色体におけるBAC物理地図の整列化

  小林史典; 片桐敏; 唐沢渉; 塙優美子; 金森裕之; 藤沢弘子; 田中剛; 渡邉将太; 坂口豊隆; 那須田周平; 大野良子; JULIO C. M. Iehisa; 宅見薫雄; 早川克志; 阿部千香子; JAROSLAV Dolezel; 荻原保成; 松本隆; 片寄裕一; WU J; 半田裕一

  育種学研究, 12 Oct. 2013

  
• NBRP・コムギ6倍性コムギコアコレクションの集団構造とアソシエーション解析

  竹中祥太朗; 新田みゆき; 河原太八; 那須田周平

  育種学研究, 12 Oct. 2013

  
• Chromosome mapping of a gene loci controlling meiotic chromosome pairing in wheat

  Giri Prasad Joshi; Takashi R. Endo; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2012, Peer-reviewed

  
• A loss-of-function of an ubiquitin-related modifier RURM1 causes abnormal chromosome segregation in rice

  Takuji Tsukiyama; Shuhei Nasuda; Mami Kadotani; Masayoshi Teraishi; Takatoshi Tanisaka; Yukata Okumoto

  GENES & GENETIC SYSTEMS, Dec. 2012, Peer-reviewed

  
• Wheat cytogenetic stocks in genomics era: establishment of a large collection of deletion stocks

  Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2012, Peer-reviewed

  
• コムギ6B染色体塩基配列の解読に向けたBAC物理地図の構築

  小林史典; 片桐敏; 唐沢渉; 塙優美子; 金森裕之; 金子聡子; 渡邉将太; 那須田周平; 早川克志; 阿部千香子; 宅見薫雄; 藤澤弘子; 伊藤幸代; 向井喜之; JAROSLAV Dolezel; 川浦香奈子; 荻原保成; 松本隆; 片寄裕一; WU J; 半田裕一

  育種学研究, 14 Sep. 2012

  
• イネユビキチン様タンパク質RURM1の機能喪失は細胞分裂の異常を引き起こす

  TSUKIYAMA TAKUJI; NASUDA SHUHEI; KAKUTANI MAMI; TERAISHI MASAYOSHI; TANISAKA TAKATOSHI; OKUMOTO YUTAKA

  日本遺伝学会大会プログラム・予稿集, 31 Aug. 2012

  
• コムギ遺伝子資源の持つ表現型・遺伝子型の評価 : ゲノム情報活用の現状と課題 (植物ゲノム研究の育種への利用最前線 : 世界の最先端と育種への利用状況、その可能性)

  那須田 周平

  Techno innovation = テクノイノベーション, 2012

  
• Uniparental chromosome elimination in interspecific barley hybrids: Loss of CENH3 from centromeres markes chromosomes to be eliminated.

  Shuhei Nasuda; Maryam Sanei; Katrin Kumke; Richard Pickering; Andreas Houben

  GENES & GENETIC SYSTEMS, Dec. 2011, Peer-reviewed

  
• Wheat diversity analysis through artificial reproduction of a series of allopolyploid: enlightening the hidden genetic variation conserved in wheat genetic resources

  Shigeo Takumi; Yoshihiro Matsuoka; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2011, Peer-reviewed

  
• Dissection and cytological mapping of barley chromosome 2H in the genetic background of common wheat

  Giri Prasad Joshi; Shuhei Nasuda; Takashi Endo

  GENES & GENETIC SYSTEMS, Dec. 2011, Peer-reviewed

  
• 「U24」と「あやひかり」の倍加半数体系統を用いたコムギの閉花受粉性に関するQTL解析

  FUJITA MASAYA; MATSUNAKA HITOSHI; KUBO KENJI; HATTA KOICHI; HAMADA ALHOSEIN; OKUMOTO YUTAKA; NITTA MIYUKI; NASUDA SHUHEI

  育種学研究, 23 Sep. 2011

  
• イネユビキチン様タンパク質RURM1は細胞分裂の安定性に関与する

  KADOTANI MAMI; TSUKIYAMA TAKUJI; NASUDA SHUHEI; TERAISHI MASAYOSHI; TANISAKA TAKATOSHI; OKUMOTO YUTAKA

  育種学研究, 23 Sep. 2011

  
• Loss of centromeric histone H3 (CENH3) from centromeres precedes uniparental chromosome elimination in interspecific barley hybrids

  Maryam Sanei; Richard Pickering; Katrin Kumke; Shuhei Nasuda; Andreas Houben

  PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, Aug. 2011, Peer-reviewed

  
• コムギに導入されたAegilops speltoides由来の配偶子致死染色体Gc1a,Gc1bのGISHとSSRマーカーによる構造解析

  新田みゆき; 渡邊将太; 辻本壽; 那須田周平

  育種学研究, 2011

  
• DNA marker development and MAS for wheat breeding program

  ISHIKAWA Goro; SAITO Mika; NASUDA Shuhei; NAKAMURA Toshiki

  農林水産技術研究ジャーナル, 01 Dec. 2010

  
• Cytological dissection of rye 1R chromosome in common wheat by the gametocidal system

  Yadav Prasad Gyawali; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2010, Peer-reviewed

  
• 暖地小麦品種におけるグラフ遺伝子型解析

  松中仁; 新田みゆき; 那須田周平; 八田浩一; 久保堅司; 藤田雅也

  育種学研究, 24 Sep. 2010

  
• パンコムギの閉花受粉性に連動するSSRマーカーの同定

  佐柄友佳子; 新田みゆき; 藤田雅也; 松中仁; 久保堅司; 八田浩一; 那須田周平

  育種学研究, 26 Mar. 2010

  
• パンコムギにおける配偶子致死抑制遺伝子Igc1の放射線雑種マッピング

  山野聡一; 辻本壽; 新田みゆき; 遠藤隆; 那須田周平

  育種学研究, 2010

  
• Analysis of uniparental elimination of chromosome in wide crosses

  Maryam Sanei; Richard Pickering; Shuhei Nasuda; Andreas Houben

  CHROMOSOME RESEARCH, May 2009, Peer-reviewed

  
• 配偶子致死遺伝子の抑制因子Igc1に関する染色体マッピング

  山野聡一; 新田みゆき; 辻本壽; 石川吾郎; 中村俊樹; 遠藤隆; 那須田周平

  育種学研究, 2009

  
• Are plant centromeres under epigenetic control? - An analysis of aberrant wheat and barley chromosomes

  Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2008, Peer-reviewed

  
• Amplification profiles of the SSR markers in cultivars of hexaploid wheat and their relatives

  Shuhei NASUDA

  11th International Wheat Genetics Symposium, 2008, Peer-reviewed

  
• PCR-based Landmark Unique Gene (PLUG) markers are a useful tool for comparative genomic analysis and BAC clone screening in wheat

  Shuhei NASUDA

  11th International Wheat Genetics Symposium, 2008, Peer-reviewed

  
• Phylogenetic relationships of Triticum species inferred from nucleotide sequence variations in the flanking regions of a Ty1/copia-type retrotransposon located on the chromosome 5A of wheat

  Yuki Okamoto; Tomoko Kitamura; Taiji Nomura; Takashi R. Endo; Naohiko T. Miyashita; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2007, Peer-reviewed

  
• Structures of barley telocentric chromosomes 7HS*and 7HS** that do not carry centromere-specific repetitive sequences

  Kazuhiko Sakai; Takashi R. Endo; Shuhei Nasuda

  GENES & GENETIC SYSTEMS, Dec. 2007, Peer-reviewed

  
• PCR-based identification of dissected rye 1R chromosomes in common wheat

  Masashi Tsuchida; Shuhei Nasuda; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2007, Peer-reviewed

  
• Establishment of common wheat lines carrying deleted rye 1R chromosomes

  Masashi Tsuchida; Shuhei Nasuda; Goro Ishikawa; Junichi Yonemaru; Toshiki Nakamura; Takashi R. Endo

  GENES & GENETIC SYSTEMS, Dec. 2006, Peer-reviewed

  
• Dissection of rye B-chromosome and non-disjunction of dissected B-chromosomes

  Takashi Endo; Atsushi Akahori; Munenori Wakimoto; Shuhei Nasuda; Q. -W. Dou; Hisashi Tsujimoto

  GENES & GENETIC SYSTEMS, Dec. 2006, Peer-reviewed

  
• Cytological analysis of single-division meiosis in synthetic triploid wheat

  Shuhei Nasuda; Yasuyo Ashida; Yoshihiro Matsuoka; Takashi Endo

  GENES & GENETIC SYSTEMS, Dec. 2006, Peer-reviewed

  
• Wheat as a model plant system for studies oil complex genomics of polyploids

  T Endo; S Nasuda; T Kawahara; Y Yasui; T Sasakuma; T Sasanuma; H Tsujimoto; H Tanaka; K Mochida; K Kawaura; Y Ogihara

  PLANT AND CELL PHYSIOLOGY, 2006

  
• Stable barley chromosomes without centromeric repeats

  S Nasuda; S Hudakova; Schubert, I; A Houben; TR Endo

  PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, Jul. 2005, Peer-reviewed

  
• A direct repeat sequence associated with the centromeric retrotransposons in wheat (vol 47, pg 747, 2004)

  H Ito; S Nasuda; TR Endo

  GENOME, Oct. 2004, Peer-reviewed

  
• Isolation of novel repetitive elements from wheat.

  SERIZAWA N; NASUDA S; ENDO T

  育種学研究 = Breeding research, Apr. 2000

  
• オオムギ特異的散在型反復配列の単離

  伊藤秀臣; 那須田周平; 遠藤隆

  日本遺伝学会大会プログラム・予稿集, 24 Sep. 1999

  
• A conserved repetitive DNA element located in the centromeres of cereal chromosomes

  JM Jiang; S Nasuda; FG Dong; CW Scherrer; SS Woo; RA Wing; BS Gill; DC Ward

  PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, Nov. 1996, Peer-reviewed

  

Presentations

• 暖地小麦品種におけるグラフ遺伝子型解析

  那須田周平

  日本育種学会第118回講演会, 2010

  
• 「Madsen」由来のコムギ縞委縮病抵抗性遺伝子と連鎖するDNAマーカーの開発

  那須田周平

  日本育種学会第118回講演会, 2010

  
• パンコムギにおける配偶子致死抑制遺伝子Igc1の放射線雑種マッピング

  那須田周平

  日本育種学会第117回講演会, 2010

  
• 「Madsen」由来のコムギ縞委縮病抵抗性遺伝子YmMDおよび新規抵抗性遺伝子のマッピング

  那須田周平

  日本育種学会第117回講演会, 2010

  
• パンコムギの閉花受粉性に連動するSSRマーカーの同定

  那須田周平

  日本育種学会第117回講演会, 2010

  
• ムギ類の遺伝・育種学へのデータベースの活用

  那須田周平

  日本育種学会第118回講演会, 2010

  
• 配偶子致死システムによるライムギ1R染色体の細胞遺伝学的解析

  那須田周平

  日本遺伝学会82回大会, 2010

  
• DNAメチル化阻害剤 Zebularine によるコムギ根端細胞における染色体切断

  那須田周平

  穂発芽研究会・第5回ムギ類研究会 合同研究会, 2010

  
• ムギ類リソースの将来

  那須田周平

  穂発芽研究会・第5回ムギ類研究会 合同研究会, 2010

  
• NBRP・コムギ DNAマーカーの多型調査プロジェクト

  日本育種学会第116回講演会, 2009

  
• ムギ類の育種－重要遺伝子－ゲノムデータベース活用編 NBRP・コムギ SSRマーカー

  那須田周平

  日本育種学会第116回講演会, 2009

  
• Igc1遺伝子のマッピングを目的とした農林２６号の３B染色体欠失系統の育成

  那須田周平

  第4回ムギ類研究会, 2009

  
• コムギのSSRマーカー多型調査と重要形質遺伝子クローニングへの課題

  那須田周平

  第4回ムギ類研究会, 2009

  
• 動原体機能はエピジェネティックな制御を受けているか？ －構造異常ムギ類染色体を用いた解析－

  日本遺伝学会第80回大会, 2008

  

Books and Other Publications

• Radiation mutants for mapping genes and markers in pericentromeric region of chromosome 3B of Norin 26 wheat

  Soichi Yamano; Hisashi Tsujimoto; Takashi R. Endo; Shuhei Nasuda

  eWIS No.109:11-13, 2010, Not refereed

  
• Is barley chromosome 4H dicentric?: A cytological evidence with common wheat lines carrying deleted 4H chromosomes.

  Masaya Sakata; Shuhei Nasuda; Takashi R. Endo

  eWIS No.110:1-3, 2010, Not refereed

  
• Annual report (fiscal year 2009) of the project "Polymorphism survey among hexaploid wheat and its relatives by DNA markers".

  Miyuki Nitta; Shuhei Nasuda

  eWIS No.109:47-48, 2010, Not refereed

  
• Annual report of the project "Polymorphism survey among hexaploid wheat and its relatives by DNA markers"

  Miyuki Nitta; Shuhei Nasuda

  eWIS No.108:21-22, 2009, Not refereed

  
• Establishment of 14 wheat lines carrying telosomes of barley chromosome 7H

  Kazuhiko Sakai; Takashi R. Endo; Shuhei Nasuda

  eWIS No.107:17-18, 2009, Not refereed

  
• A report of the project "Polymorphism survey among hexaploid wheat and its relatives by DNA markers" granted by the National Bioresource Project-Wheat, Japan

  Miyuki Nitta; Shuhei Nasuda

  eWIS No.107:33-35, 2009, Not refereed

  
• Identification of the chromosome arms and the position of centromeres in the RFLP map of common wheat

  那須田 周平

  Nuclear and Organellar genomes of wheat species,/,73-78, 1991, Not refereed

  

Awards

• 2005

  日本遺伝学会奨励賞

External funds: Kakenhi

• Exploring active transposable elements by chromosome addition lines

  Grant-in-Aid for Challenging Research (Exploratory)

  Kyoto Sangyo University

  Akira KAWABE

  From 30 Jun. 2017, To 31 Mar. 2019, Project Closed

  トランスポゾン;染色体添加系統;コムギ;オオムギ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17K19361/
• Cloning and characterization of the gametocidal genes that break chromosomes in wheat

  Grant-in-Aid for Scientific Research (B)

  Kyoto University

  Shuhei Nasuda

  From 01 Apr. 2017, To 31 Mar. 2022, Project Closed

  染色体切断;ゲノム再編;配偶子形成;利己的遺伝子;致死;種分化;ゲノム再編機構;染色体構造変異;配偶子形成不全;致死性;コムギ;配偶子;致死遺伝子;segregation distortion;ゲノム編集;育種学;遺伝学;染色体

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17H03747/
• Identification of the gametocidal gene that induce chromosome breakage in common wheat

  Grant-in-Aid for Scientific Research (B)

  Kyoto University

  Shuhei Nasuda

  From 01 Apr. 2013, To 31 Mar. 2017, Project Closed

  配偶子致死;マッピング;ラフマップ;遺伝学;生殖;雑種不稔;コムギ;遺伝子単離;ゲノム編集;機能解析;染色体切断

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-25292007/
• Identification of functional centromeric sequences in barley through analysis of structurally modified chromosomes.

  Grant-in-Aid for Scientific Research (C)

  Kyoto University

  Shuhei NASUDA

  From 01 Apr. 2005, To 31 Mar. 2007, Project Closed

  セントロメア;ネオセントロメア;キネトコア;オオムギ;コムギ層;構造異常染色体;クロマチン免疫沈降;動原体;染色体突然変異;クロマチン;免疫沈降, centromere;neocentromere;kinetochore;barley;wheat;structurally-modified chromosome

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-17570005/
• 一粒系コムギにおける減数分裂に関する遺伝子のマッピング

  Grant-in-Aid for Young Scientists (A)

  Kyoto University

  那須田 周平

  From 01 Apr. 2002, To 31 Mar. 2005, Project Closed

  コムギ;突然変異誘発;減数分裂;稔性

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-14704008/
• 植物の倍数体におけるゲノム間相互作用の統合的理解

  Grant-in-Aid for Scientific Research (C)

  Kyoto University

  遠藤 隆

  From 01 Apr. 2000, To 31 Mar. 2001, Project Closed

  倍数体;倍数性;ゲノム;染色体;動原体;テロメア;セントロメア;反復配列

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-12894018/
• Introduction of the clusters of genes controlling pest and disease resistance from related crops to common wheat by means of the genetic genome rearrangement

  Grant-in-Aid for Scientific Research (A)

  KYOTO UNIVERSITY

  Takashi ENDO

  From 01 Apr. 2000, To 31 Mar. 2004, Project Closed

  パンコムギ;ライムギ;オオムギ;うどんこ病;さび病;セカリン;ホーダチン;EST;抵抗性遺伝子;コムギ;染色体構造異常;サビ病;ウドンコ病, common wheat;rye;barley;rust;powdery mildew;secarin;hordatine;EST

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-12306001/
• コムギにおける配偶子致死遺伝子による染色体突然変異の解析

  Grant-in-Aid for Encouragement of Young Scientists (A)

  Kyoto University

  那須田 周平

  From 01 Apr. 1999, To 31 Mar. 2001, Project Closed

  配偶子致死遺伝子;染色体;突然変異;コムギ;染色体突然変異;AFLP;反復配列

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-11740417/
• Physical mapping and molecular genetic study of barley chromosomes by genetic genome rearrangement

  Grant-in-Aid for Scientific Research (A)

  KYOTO UNIVERSITY

  Takashi ENDO

  From 01 Apr. 1996, To 31 Mar. 2000, Project Closed

  オオムギ;パンコムギ;配遇子致死染色体;染色体構造変異;物理的染色体地図;deletion mapping;FISH;GISH;染色体地図;欠失;転座;in situ hybridization;サブテロメリック配列;欠失系統;PCR, barley;common wheat;gametocidal chromosome;chromosomal structural changes;physical chromosome map;deletion mapping;FISH;GISH

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-08406001/
• Key-Molecule-Network in Plant Reproduction

  Fund for the Promotion of Joint International Research (International Leading Research )

  Biological Sciences

  The University of Tokyo

  東山 哲也

  From 20 Dec. 2022, To 31 Mar. 2029, Granted

  植物生殖;鍵分子ネットワーク;分子科学;大規模データ科学;国際的次世代若手リーダー

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22K21352/
• イネ種子貯蔵タンパク質含量を制御する遺伝的要因の同定および加工機能性の解明

  Grant-in-Aid for Scientific Research (B)

  Basic Section 39010:Science in plant genetics and breeding-related

  Kyoto University

  吉川 貴徳

  From 01 Apr. 2022, To 31 Mar. 2025, Granted

  イネ;貯蔵タンパク質;GWAS;加工機能性;野生イネ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22H02311/
• イネ種子貯蔵タンパク質含量を制御する遺伝的要因の同定および加工機能性の解明

  Grant-in-Aid for Scientific Research (B)

  Basic Section 39010:Science in plant genetics and breeding-related

  National Institute of Genetics;Kyoto University

  吉川 貴徳

  From 01 Apr. 2022, To 31 Mar. 2025, Granted

  イネ;貯蔵タンパク質;GWAS;加工機能性;野生イネ

  https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23K23577/

External funds: others

• Genome analysis in wheat and related species
• 高度の情報と信頼性を具備したコムギ遺伝資源の整備

  文部科学省 ナショナルバイオリソースプロジェクト

  From 2012, To 2016

  那須田　周平
• 高度の情報と信頼性を具備したコムギ遺伝資源の整備 （平成26年度分）

  文部科学省 ナショナルバイオリソースプロジェクト

  From 01 Apr. 2014, To 31 Mar. 2015

  那須田　周平
• 高度の情報と信頼性を具備したコムギ遺伝資源の整備 （平成27年度分）

  文部科学省 医療研究開発推進事業費補助金

  From 01 Apr. 2015, To 31 Mar. 2016

  那須田　周平
• コムギの異数体を利用したオオムギ単一染色体組換え系統群の育成 （平成28年度分）

  二国間交流事業共同研究・セミナー

  From 01 Apr. 2016, To 31 Mar. 2017

  那須田　周平
• 高度の情報と信頼性を具備したコムギ遺伝資源の整備 （平成28年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2016, To 31 Mar. 2017

  那須田　周平
• コムギの異数体を利用したオオムギ単一染色体組換え系統群の育成 （平成29年度分）

  二国間交流事業共同研究・セミナー

  From 01 Apr. 2017, To 31 Mar. 2018

  那須田 周平
• 日本産コムギ標準品種のゲノム解析によるコムギ多様性情報の整備 （平成29年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2017, To 31 Mar. 2018

  那須田 周平
• ライフサイエンス研究用コムギリソースの整備と高品質化 （平成29年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2017, To 31 Mar. 2018

  那須田 周平
• ライフサイエンス研究用コムギリソースの整備と高品質化 （平成30年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2018, To 31 Mar. 2019

  那須田 周平
• NBRP・コムギで整備中の東アジアコムギNAM集団親系統のゲノム多型解析 （2019年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2019, To 31 Mar. 2020

  那須田　周平
• ライフサイエンス研究用コムギリソースの整備と高品質化 （2019年度分）

  医療研究開発推進事業費補助金

  From 01 Apr. 2019, To 31 Mar. 2020

  那須田　周平

Education

Teaching subject(s)

• From 01 Apr. 2025, To 31 Mar. 2026

  Laboratory Course in Plant Production Science I

  5357, Spring, Faculty of Agriculture, 6
• From 01 Apr. 2025, To 31 Mar. 2026

  Laboratory Course in Plant Production Science II

  5359, Fall, Faculty of Agriculture, 6
• From 01 Apr. 2025, To 31 Mar. 2026

  Plant Breeding Seminar

  AF02, Fall, Graduate School of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Plant Breeding Seminar

  AF02, Spring, Graduate School of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Plant Production Sciences

  5697, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Molecular Plant Breeding

  5375, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Seminar in Crop Science

  5283, Year-long, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Primer for Rice, Wheat, and Soybean Sciences

  5703, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Plant Breeding

  5142, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Outline of Bioresource Science A

  5112, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2025, To 31 Mar. 2026

  Outline of Agricultural Science II

  5003, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Special Laboratory Work in Plant Breeding

  AG02, Spring, Graduate School of Agriculture, 2.5
• From 01 Apr. 2024, To 31 Mar. 2025

  Special Laboratory Work in Plant Breeding

  AG02, Fall, Graduate School of Agriculture, 2.5
• From 01 Apr. 2024, To 31 Mar. 2025

  Primer for Rice, Wheat, and Soybean Sciences

  5703, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Plant Production Sciences

  5697, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Molecular Plant Breeding

  5375, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Outline of Agricultural Science II

  5003, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Seminar in Crop Science

  5283, Year-long, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Plant Breeding

  5142, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Outline of Bioresource Science A

  5112, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Topics in Advanced Plant Breeding

  AA33, Fall, Graduate School of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Plant Breeding Seminar

  AF02, Spring, Graduate School of Agriculture, 2
• From 01 Apr. 2024, To 31 Mar. 2025

  Plant Breeding Seminar

  AF02, Fall, Graduate School of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Special Lecture of Plant Production Science VI

  AA28, Fall, Graduate School of Agriculture, 1
• From 01 Apr. 2023, To 31 Mar. 2024

  Special Laboratory Work in Plant Breeding2

  AC31, Year-long, Graduate School of Agriculture, 5
• From 01 Apr. 2023, To 31 Mar. 2024

  Special Laboratory Work in Plant Breeding1

  AC30, Year-long, Graduate School of Agriculture, 5
• From 01 Apr. 2023, To 31 Mar. 2024

  Plant Breeding Seminar1

  AB12, Year-long, Graduate School of Agriculture, 4
• From 01 Apr. 2023, To 31 Mar. 2024

  Plant Breeding Seminar2

  AB13, Year-long, Graduate School of Agriculture, 4
• From 01 Apr. 2023, To 31 Mar. 2024

  Outline of Agricultural Science II

  5003, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Special Lecture on Plant Production Sciences

  5719, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Seminar in Crop Science

  5283, Year-long, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Plant Breeding

  5142, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Outline of Bioresource Science A

  5112, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Primer for Rice, Wheat, and Soybean Sciences

  5703, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Plant Production Sciences

  5697, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2023, To 31 Mar. 2024

  Molecular Plant Breeding

  5375, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Topics in Advanced Plant Breeding

  AA33, Fall, Graduate School of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Seminar in Crop Science

  5283, Year-long, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Primer for Rice, Wheat, and Soybean Sciences

  5703, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Plant Breeding Seminar2

  AB13, Year-long, Graduate School of Agriculture, 4
• From 01 Apr. 2022, To 31 Mar. 2023

  Special Laboratory Work in Plant Breeding1

  AC30, Year-long, Graduate School of Agriculture, 5
• From 01 Apr. 2022, To 31 Mar. 2023

  Plant Breeding II

  5201, Fall, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Outline of Bioresource Science A

  5112, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Plant Breeding Seminar1

  AB12, Year-long, Graduate School of Agriculture, 4
• From 01 Apr. 2022, To 31 Mar. 2023

  Introduction to Foreign Literature in Bioresource Science I

  5187, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Plant Breeding I

  5141, Spring, Faculty of Agriculture, 2
• From 01 Apr. 2022, To 31 Mar. 2023

  Special Laboratory Work in Plant Breeding2

  AC31, Year-long, Graduate School of Agriculture, 5
• From 01 Apr. 2022, To 31 Mar. 2023

  Outline of Agricultural Science II

  5003, Fall, Faculty of Agriculture, 2
• From Apr. 2011, To Mar. 2012

  資源植物科学演習

  Year-long, 農学部
• From Apr. 2011, To Mar. 2012

  植物遺伝学専攻実験

  農学研究科
• From Apr. 2011, To Mar. 2012

  植物遺伝学専攻演習

  農学研究科
• From Apr. 2012, To Mar. 2013

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2013, To Mar. 2014

  Genetics

  Spring, 農学部
• From Apr. 2013, To Mar. 2014

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2013, To Mar. 2014

  Seminar in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2013, To Mar. 2014

  Research in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2014, To Mar. 2015

  Genetics

  Spring, 農学部
• From Apr. 2014, To Mar. 2015

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2014, To Mar. 2015

  Seminar in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2014, To Mar. 2015

  Research in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2015, To Mar. 2016

  Research in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2015, To Mar. 2016

  Research in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2015, To Mar. 2016

  Seminar in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2015, To Mar. 2016

  Seminar in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2015, To Mar. 2016

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2015, To Mar. 2016

  Genetics I

  Spring, 農学部
• From Apr. 2015, To Mar. 2016

  Principles of Genetics

  Spring, 全学共通科目
• From Apr. 2016, To Mar. 2017

  ILAS Seminar

  Spring, 全学共通科目
• From Apr. 2016, To Mar. 2017

  Research in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Research in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Research in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Seminar in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Seminar in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Seminar in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2016, To Mar. 2017

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2016, To Mar. 2017

  Genetics I

  Spring, 農学部
• From Apr. 2016, To Mar. 2017

  Principles of Genetics

  Spring, 全学共通科目
• From Apr. 2016, To Mar. 2017

  Advanced Genetics I

  Fall, 農学研究科
• From Apr. 2017, To Mar. 2018

  Research in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Research in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Research in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Seminar in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Seminar in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Seminar in Plant Genetics

  Year-long, 農学研究科
• From Apr. 2017, To Mar. 2018

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2017, To Mar. 2018

  Genetics I

  Spring, 農学部
• From Apr. 2018, To Mar. 2019

  Research in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2018, To Mar. 2019

  Research in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2018, To Mar. 2019

  Seminar in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2018, To Mar. 2019

  Seminar in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2018, To Mar. 2019

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2018, To Mar. 2019

  Introduction to Foreign Literature in Bioresource Science II

  Fall, 農学部
• From Apr. 2018, To Mar. 2019

  Genetics I

  Spring, 農学部
• From Apr. 2018, To Mar. 2019

  Advanced Genetics I

  Fall, 農学研究科
• From Apr. 2019, To Mar. 2020

  Research in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2019, To Mar. 2020

  Research in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2019, To Mar. 2020

  Seminar in Plant Genetics1

  Year-long, 農学研究科
• From Apr. 2019, To Mar. 2020

  Seminar in Plant Genetics2

  Year-long, 農学研究科
• From Apr. 2019, To Mar. 2020

  Seminar in Plant Resource Science

  Year-long, 農学部
• From Apr. 2019, To Mar. 2020

  Outline of Bioresource Science A

  Spring, 農学部
• From Apr. 2019, To Mar. 2020

  Genetics I

  Spring, 農学部
• From Apr. 2020, To Mar. 2021

  Seminar in Crop Science

  Year-long, 農学部
• From Apr. 2020, To Mar. 2021

  Progress in Mutation Breeding

  Fall, 農学研究科
• From Apr. 2020, To Mar. 2021

  Plant Breeding II

  Fall, 農学部
• From Apr. 2020, To Mar. 2021

  Plant Breeding I

  Spring, 農学部
• From Apr. 2020, To Mar. 2021

  Special Laboratory Work in Plant Breeding1

  Year-long, 農学研究科
• From Apr. 2020, To Mar. 2021

  Special Laboratory Work in Plant Breeding2

  Year-long, 農学研究科
• From Apr. 2020, To Mar. 2021

  Plant Breeding Seminar1

  Year-long, 農学研究科
• From Apr. 2020, To Mar. 2021

  Plant Breeding Seminar2

  Year-long, 農学研究科
• From Apr. 2020, To Mar. 2021

  Outline of Bioresource Science A

  Spring, 農学部
• From Apr. 2021, To Mar. 2022

  Seminar in Crop Science

  Year-long, 農学部
• From Apr. 2021, To Mar. 2022

  Plant Breeding II

  Fall, 農学部
• From Apr. 2021, To Mar. 2022

  Plant Breeding I

  Spring, 農学部
• From Apr. 2021, To Mar. 2022

  Special Laboratory Work in Plant Breeding1

  Year-long, 農学研究科
• From Apr. 2021, To Mar. 2022

  Special Laboratory Work in Plant Breeding2

  Year-long, 農学研究科
• From Apr. 2021, To Mar. 2022

  Plant Breeding Seminar1

  Year-long, 農学研究科
• From Apr. 2021, To Mar. 2022

  Plant Breeding Seminar2

  Year-long, 農学研究科
• From Apr. 2021, To Mar. 2022

  Outline of Bioresource Science A

  Spring, 農学部
• From Apr. 2021, To Mar. 2022

  Outline of Agricultural Science II

  Fall, 農学部
• From Apr. 2021, To Mar. 2022

  Genetic Analysis in Crops

  Fall, 農学研究科

Participation in PhD Defense

• Studies on the dosage effect of genes encoding herbicide target enzymes in weeds

  OHTA KENSUKE, Graduate School of Agriculture, Sub-chief Examiner

  24 Mar. 2025
• Construction of a consensus map of a nested association mapping (NAM) population of Asian common wheat and its application in revealing recombination landscape and genetic analysis of flowering duration

  Nie Jilu, Graduate School of Agriculture, Chief Examiner

  24 Mar. 2025
• An accurate and general estimation model for rice above-ground biomass using convolutional neural network-based analysis of digital image

  NAKAJIMA KOTA, Graduate School of Agriculture, Sub-chief Examiner

  24 Mar. 2025
• Dynamic Changes in Wheat Arabinoxylan and Ferulic Acid during Breadmaking Process

  NISHITSUJI YASUYUKI, Graduate School of Agriculture, Chief Examiner

  24 Mar. 2025
• Factors that facilitate Phytophthora root and stem rot incidence in soybean

  TADA TERUFUMI, Graduate School of Agriculture, Sub-chief Examiner

  25 Mar. 2024
• 地力および施肥に由来する窒素の吸収動態の解明に基づいた省力施肥法による高品質麦類生産に関する栽培学的研究

  ISHIMARU TOMOMICHI, Graduate School of Agriculture, Sub-chief Examiner

  25 Mar. 2024
• Development of protein analysis method and its application to the improvement of wheat seed quality

  Woo Sun-Hee, Graduate School of Agriculture, Sub-chief Examiner

  25 Mar. 2024
• Studies on the floral regulatory mechanism in a non-flowering cabbage mutant that spontaneously reacquires flowering ability

  KINOSHITA YU, Graduate School of Agriculture, Sub-chief Examiner

  23 Mar. 2023
• Natural genetic variation and underlying ecophysiological factorsin photosynthetic induction in rice

  TANIYOSHI KAZUKI, Graduate School of Agriculture, Sub-chief Examiner

  23 Mar. 2023
• Genetic Variations and Physiological Mechanisms UnderlyingPhotosynthetic Capacity in Soybean (Glycine max (L.) Merrill)

  MOHAMMAD JAN SHAMIM, Graduate School of Agriculture, Sub-chief Examiner

  26 Sep. 2022
• Characterization of Yield Production and Grain Quality of ErectPanicle Rice (Oryza sativa L.) under Varied Nitrogen FertilizerApplication

  IDOWU OLUSEGUN, Graduate School of Agriculture, Sub-chief Examiner

  26 Sep. 2022
• Studies on utilization of tetraploid wheat (Triticum turgidum L.) as genetic resources and improvement of breeding efficiency by novel techniques for detecting nucleotide polymorphisms

  NISHIMURA KAZUSA, Graduate School of Agriculture, Sub-chief Examiner

  24 Nov. 2022
• Studies on a robust method for estimating rice canopy transpiration based on the heat balance model and its application

  KONDO RINTARO, Graduate School of Agriculture, Sub-chief Examiner

  24 Sep. 2021
• Molecular mechanisms underlying environmental and epigenetic fruit ripening control in highbush blueberry

  LI TAISHAN, Graduate School of Agriculture, Sub-chief Examiner

  24 Sep. 2021

Part-time lecturer

• From 2010, To 2010

  生命の科学

  同志社女子大学
• From 2009, To 2009

  生命の科学

  同志社女子大学
• From 2008, To 2008

  生命の科学

  同志社女子大学

Administration

School management (title, position)

• From 01 Apr. 2024

  農場 農場長
• From 01 May 2015, To 30 Apr. 2016

  生物学部会

Faculty management (title, position)

• From 01 Apr. 2024, To 31 Mar. 2026

  防火・防災委員会　委員
• From 01 Apr. 2024, To 31 Mar. 2026

  農場・牧場連絡協議委員会　委員
• From 01 Apr. 2024, To 31 Mar. 2026

  評価委員会　委員
• From 01 Apr. 2024, To 31 Mar. 2026

  附属農場　農場長
• From 01 Apr. 2024, To 31 Mar. 2026

  将来構想検討委員会　委員
• From 01 Apr. 2024, To 31 Mar. 2026

  研究活動推進委員会　委員
• From 01 Apr. 2023, To 31 Mar. 2025

  男女共同参画推進委員会　委員
• From 01 Apr. 2016, To 31 Mar. 2018

  広報委員会　委員
• From 01 Apr. 2020, To 31 Mar. 2022

  研究活動推進委員会　委員
• From 01 Apr. 2021, To 31 Mar. 2022

  農学専攻長
• From 01 Jul. 2021, To 30 Jun. 2023

  比較農業論講座運営協議員会　協議員
• From 01 Apr. 2021, To 31 Mar. 2022

  評価委員会　委員
• From 01 Apr. 2021, To 31 Mar. 2026

  国際交流委員会　委員
• From 01 Apr. 2021, To 31 Mar. 2022

  農場・牧場連絡協議委員会　委員
• From 01 Apr. 2021, To 31 Mar. 2022

  防火・防災委員会　委員