◇ 半田 裕一(教授・2019.4〜)
Nanape AB, Haine HM, Sugimoto K, Kobayashi F, Oono Y, Handa H, Komatsuda T, Kakeda K (2023) Mutations within the miR172 target site of wheat AP2 homoeologs regulate lodicule size and rachis internode length. Breeding Science 73: 401-407
Langridge P, Alaux M, Almeida NF, Ammar K, Baum M, Bekkaoui F, Bentley AR, Beres BL, Berger B, Braun H-J, Brown-Guedira G, Burt CJ, Caccamo MJ, Cattivelli L, Charmet G, Civáň P, Cloutier S, Cohan J-P, Devaux PJ, Doohan FM, Dreccer MF, Ferrahi M, Germán SE, Goodwin SB, Griffiths S, Guzmán C, Handa H, Hawkesford MJ, He Z, Huttner E, Ikeda TM, Kilian B, King IP, King J, Kirkegaard JA, Lage J, Le Gouis J, Mondal S, Mullins E, Ordon F, Ortiz-Monasterio JI, Özkan H, Öztürk İ, Pereyra SA, Pozniak CJ, Quesneville H, Quincke MC, Rebetzke GJ, Christoph Reif J, Saavedra-Bravo T, Schurr U, Sharma S, Singh SK, Singh RP, Snape JW, Tadesse W, Tsujimoto H, Tuberosa R, Willis TG, Zhang X (2022) Meeting the Challenges Facing Wheat Production: The Strategic Research Agenda of the Global Wheat Initiative. Agronomy. 12(11): 2767. https://doi.org/10.3390/agronomy12112767
Komura S, Jinno H, Sonoda T, Oono Y, Handa H, Takumi S, Yoshida K and Kobayashi F (2022) Genome sequencing-based coverage analyses facilitate high-resolution detection of deletions linked to phenotypes of gamma-irradiated wheat mutants. BMC Genomics, 23: 111.
Kobayashi F, Tanaka T, Kanamori H, Wu J, Handa H (2021) Reference genome sequencing and advances in genomic resources in common wheat–chromosome 6B project in Japan. JARQ, 55: 285-294.
Halstead-Nussloch G, Tanaka T, Copetti D, Paape T , Kobayashi F, Hatakeyama M , Kanamori H, Wu J, Mascher M, Kawaura K, Shimizu KK and Handa H (2021) Multiple Wheat Genomes Reveal Novel Gli-2 Sublocus Location and Variation of Celiac Disease Epitopes in Duplicated α-Gliadin Genes. Frontiers in Plant Science, 12: 715985.
Nishimura K, Handa H, Mori N, Kawaura K, Kitajima A, Nakazaki T (2021) Geographical distribution and adaptive variation of VRN-A3 alleles in worldwide polyploid wheat (Triticum spp.) species collection. Planta, 253: 132.
Abrouk M, Naveenkumar Athiyannan N, Müller T, Pailles Y, Stritt C, Roulin AC, Chu C, Liu S, Morita T, Handa H, Poland J, Keller B & Krattinger SG (2021) Population genomics and haplotype analysis in spelt and bread wheat identifies a gene regulating glume color. Communications Biology 4: 375. DOI: https://doi.org/10.1038/s42003-021-01908-6
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 (2020) Multiple wheat genomes reveal global variation in modern breeding. Nature, DOI: https://doi.org/10.1038/s41586-020-2961-x
Shimizu KK, Copetti D, Okada M, Wicker T, Tameshige T, Hatakeyama M, Shimizu-Inatsugi R, Aquino C, Nishimura K, Kobayashi F, Murata K, Kuo T, Delorean E, Poland J, Haberer G, Spannagl M, Mayer KFX, Gutierrez-Gonzalez J, Muehlbauer GJ, Monat C, Himmelbach A, Padmarasu S, Mascher M, Walkowiak S, Nakazaki T, Ban T, Kawaura K, Tsuji H, Pozniak C, Stein N, Sese J, Nasuda S, Handa H (2020) 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. Plant and Cell Physiology, DOI: https://doi.org/10.1093/pcp/pcaa152
Yusuke Ban, Goro Ishikawa, Hiroaki Ueda, Naoyuki Ishikawa, Keita Kato, Kanenori Takata, Minoru Matsuyama, Hirokazu Handa, Toshiki Nakamura, Mikiko Yanaka (2020) Novel quantitative trait loci for low grain cadmium concentration in common wheat (Triticum aestivum L.). Breeding Science, 70: 331-341.
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◇ 大坪 憲弘(准教授・2015.10〜)
Satoru Maeda, Wataru Ackley, Naoki Yokotani, Katsutomo Sasaki, Norihiro Ohtsubo, Kenji Oda and Masaki Mori (2023) Enhanced Resistance to Fungal and Bacterial Diseases Due to Overexpression of BSR1, a Rice RLCK, in Sugarcane, Tomato, and Torenia. International Journal of Molecular Sciences 24(4): 3644; https://doi.org/10.3390/ijms24043644
Satoru Maeda, Katsutomo Sasaki, Hisatoshi Kaku, Yasukazu Kanda, Norihiro Ohtsubo and Masaki Mori (2022) Overexpression of Rice BSR2 Confers Disease Resistance and Induces Enlarged Flowers in Torenia fournieri Lind. International Journal of Molecular Sciences 23(9): 4735; https://doi.org/10.3390/ijms23094735
Katsutomo Sasaki, Satoshi Yoshioka, Ryutaro Aida and Norihiro Ohtsubo (2021) Production of petaloid phenotype in the reproductive organs of compound flowerheads by the co-suppression of class-C genes in hexaploid Chrysanthemum morifolium. Planta 253: 100.
Katsutomo Sasaki, Norihiro Ohtsubo (2020) Production of multi-petaled Torenia fournieri flowers by functional disruption of two class-C MADS-box genes. Planta 251: 101.
Ichiro Kasajima, Norihiro Ohtsubo, Katsutomo Sasaki (2017) Combination of Cyclamen persicum Mill. floral gene promoters and chimeric repressors for the modification of ornamental traits in Torenia fournieri Lind. HORTICULTURE RESEARCH 4: 17008.
Tomoya Niki, Katsutomo Sasaki, Masahito Shikata, Takako Kawasaki-Narumi, Norihiro Ohtsubo, Takaaki Nishijima (2016) Conversion of Abaxial to Adaxial Petal in a Torenia (Torenia fournieri Lind. ex Fourn.) Mutant Appeared in Selfed Progeny of the Mutable Line "Flecked". HORTICULTURE JOURNAL 85(4): 351 – 359.
Katsutomo Sasaki, Hiroyasu Yamaguchi, Ichiro Kasajima, Takako Narumi, Norihiro Ohtsubo (2016) Generation of Novel Floral Traits Using a Combination of Floral Organ-Specific Promoters and a Chimeric Repressor in Torenia fournieri Lind. PLANT AND CELL PHYSIOLOGY 57(6): 1319 – 1331.
Ryutaro Aida, Katsutomo Sasaki, Norihiro Ohtsubo (2016) Production of chrysanthemum periclinal chimeras through shoot regeneration from leaf explants. Plant Biotechnology 33(1): 45 - 49.
Katsutomo Sasaki, Norihiro Ohtsubo (2016) Promotion of Efficient Molecular Breeding Using Chimeric Repressors in Ornamental Flowers. JARQ-JAPAN AGRICULTURAL RESEARCH QUARTERLY 50(2): 79 – 86.
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