Takao Komatsuda

Takao Komatsuda（小松田隆夫）：曾任日本国立农业与食品研究组织（NARO）作物科学研究所首席科学家；日本千叶大学教授、博士生导师；日本育种学会杰出贡献奖获得者；北海道大学（2007）、茨城大学（2009）、三重大学（2009）、岗山大学（2011）和西北农林科技大学（2015）等高校客座教授。以通讯作者在Cell、PNAS、Plant Journal、Plant Physiology和Theoretical and Applied Genetics等杂志发表系列研究论文。

担任《Theoretical and Applied Genetics》、《The Plant Genome》、《Molecular Breeding》和《Breeding Science》等SCI期刊编委，并为《Nature Genetics》、《PNAS》、《Plant Cell》、《New Phytologist》等期刊审稿专家。

联系方式：takao_komatsuda@163.com

办公室：科技园1期B501

研究领域：

麦类作物基因图位克隆与种质创新，在作物驯化、抗病等方面取得突破性进展。

代表性论文：

1)Pourkheirandish M, Hensel G, Kilian B, Senthil N, Chen G, Sameri M, Azhaguvel P, Sakuma S, Dhanagond S, Sharma RB, Mascher M, Himmelbach A, Gottwald S, Nair SK, Tagiri A, Yukuhiro F, Nagamura Y, Kanamori H, Matsumoto T, Willcox G, Middleton CP, Wicker TM, Walther A, Waugh R, Fincher GB, Stein N, Kumlehn J, Sato K,Komatsuda T (通讯作者). Evolution of the grain dispersal system in barley. Cell, 2015, 162:527-539.

2)Mishina K, Suzuki T, Oono Y, Yamashita Y, Zhu H, Ogawa T, Ohta M, Doman K, Xu W, Takahashi D, Miyazaki T, Tagiri A, Soma C, Horita H, Nasuda S, De Oliveira R, Paux E, Chen G, Pourkheirandish M, Wu J, Liu C,Komatsuda T (通讯作者). WheatYm2originated fromAegilops sharonensisand confers resistance to soil-borne Wheat yellow mosaic virus infection to the roots. Proc Natl Acad Sci USA. 2023, 14;120(11):e2214968120.

3)Sakuma S, Goland G, Guo Z, Ogawa T, Tagiri A, Sugimoto K, Bernhardt N, Brassac J, Mascherh M, Hensel G, Ohnishi S, Jinno H, Yamashita Y, Ayalon I, Peleg Z, Schnurbusch T,Komatsuda T (通讯作者).Unleashing floret fertility in wheat through the mutation of a homeobox gene. Proc Natl Acad Sci USA, 2019, 116:5182-5187.

4)Chen G,Komatsuda T (共同一作兼通讯作者), Ma JF, Nawrath C, Pourkheirandish M, Tagiri A, Hu Y, Sameri M, Li X, Zhao X, Liu Y, Li C, Ma X, Wang A, Nair SR, Wang N, Miyao A, Sakuma S, Yamaji N, Zheng X, Nevo E. An ATP-binding cassette subfamily G full transporter is essential for the retention of leaf water in both wild barley and rice. Proc. Natl. Acad. Sci. USA, 2011, 108:12354-12359.

5)Nair SK, Wang N, Turuspekov Y, Pourkheirandish M, Sinsuwongwat S, Chen G, Sameri M, Tagiri A, Honda I, Watanabe Y, Kanamori H, Wicker TM, Stein N, Nagamura Y, Matsumoto T,Komatsuda T (通讯作者). Cleistogamous flowering in barley arises from the suppression of microRNA-guided HvAP2 mRNA cleavage. Proc. Natl. Acad. Sci. USA, 2010, 107:490-495.

6)Komatsuda T (第一兼通讯作者), Pourkheirandish M, He C, Azhaguvel P, Kanamori H, Perovic D, Stein N, Graner A, Wicker TM, Tagiri A, Lundqvist U, Fujimura T, Matsuoka M, Matsumoto T, Yano M. (2007) Six-rowed barley originated from a mutation in a homeodomain-leucine zipper I-class homeobox gene. Proc. Natl. Acad. Sci. USA, 2007, 104:1424-1429.

7)Sakuma S, Pourkheirandish M, Hensel G, Kumlehn J, Stein N, Tagiri A, Yamaji N, Ma JF, Sassa H, Koba T,Komatsuda T (通讯作者). Divergence of expression pattern contributed to neofunctionalization of duplicated HD-Zip I transcription factor in barley. New Phytologist, 2013, 197:939-948.

8)Sakuma S, Lundqvist U, Kakei Y, Thirulogachandar V, Suzuki T, Hori K, Wu J, Tagiri A, Rutten T, Koppolu R, Shimada Y, Houston K, Thomas WTB, Waugh R, Schnurbusch T,Komatsuda T (通讯作者). Extreme suppression of lateral floret development by a single amino acid change in the VRS1. Plant Physiology, 2017, 175:1720-1731.

9)Pourkheirandish M, Kanamori H, Wu J, Sakuma S, Blattner F,Komatsuda T (通讯作者). Elucidation of the origin of “agriocrithon” based on domestication genes questions the hypothesis that Tibet is one of the centers of barley domestication. Plant Journal, 2018, 94:525-534.

10)Wang N, Kakeda K, Tomokazu M, Liu C, Yoshida M, Kawada N,Komatsuda T (通讯作者). A novel mutant allele at theCleistogamy 1locus in barley. Theoretical and Applied Genetics, 2021, 134: 3183-3193.