原著論文 – Original papers
Dongyang Xu, Jiahang Miao, Emi Yumoto, Takao Yokota, Masashi Asahina, Masaaki Watahiki, YUCCA9-mediated Auxin Biosynthesis and Polar Auxin Transport Synergistically Regulate Regeneration of Root Systems Following Root Cutting. (2017), Plant and Cell Physiology.
https://doi.org/10.1093/pcp/pcx107
Yamamoto KT, Watahiki MK, Matsuzaki J, Satoh S, Shimizu H. (2017) Space–time analysis of gravitropism in etiolated Arabidopsis hypocotyls using bioluminescence imaging of the IAA19 promoter fusion with a destabilized luciferase reporter, J. Plant Res, 130, 765-777.
https://link.springer.com/article/10.1007/s10265-017-0932-6
Li N, Teranishi M, Yamaguchi H, Matsushita T, Watahiki, MK, Tsuge T, Li S, Hidema J. (2015) UV-B-Induced CPD Photolyase Gene Expression is Regulated by UVR8-Dependent and -Independent Pathways in Arabidopsis. Plant and cell physiology, 56, 2014-2023.
Kami C, Allenbach L, Zourelidou M, Ljung K, Schütz F, Isono E, Watahiki MK, Yamamoto KT, Schwechheimer C, Fankhauser C. (2014) Reduced phototropism in pks mutants may be due to altered auxin-regulated gene expression or reduced lateral auxin transport. Plant Journal. 77: 393-403.
Sako, K, Maki, Y, Kanai, T, Kato, E, Maekawa, S , Yasuda, S, Sato, T, Watahiki, M. K , Yamaguchi, J . (2012) Arabidopsis RPT2a, 19S Proteasome Subunit, Regulates Gene Silencing via DNA Methylation. Plos One, 7, 5: e37086
Tashiro S, Tian C, Watahiki MK, Yamamoto KT (2009) Changes in growth kinetics of stamen filaments cause inefficient pollination in massugu2, an auxin insensitive, dominant mutant of Arabidopsis thaliana. Physiologia Plantarum, 175-187.
Saito K, Watahiki MK, Yamamoto KT (2007) Differential expression of the auxin primary response gene MASSUGU2/IAA19 during tropic responses of Arabidopsis hypocotyls. Physiologia Plantarum, 130, 148-156.
Muto H, Watahiki MK, Nakamoto D, Kinjo M, Yamamoto KT (2007) Specificity and similarity of functions of the Aux/IAA genes in auxin signaling of arabidopsis revealed by promoter-exchange experiments among MSG2/IAA19, AXR2/IAA7, and SLR/IAA14. Plant Physiology, 144, 187-196.
Fujibe T, Saji H, Watahiki MK, Yamamoto KT (2006) Overexpression of the RADICAL-INDUCED CELL DEATH1 (RCD1) gene of Arabidopsis causes weak rcd1 phenotype with compromised oxidative-stress responses. Bioscience Biotechnology and Biochemistry, 70, 1827-1831.
Tatematsu K, Kumagai S, Muto H, Sato A, Watahiki MK, Harper RM, Liscum E, Yamamoto K T (2004) MASSUGU2 Encodes Aux/IAA19, an Auxin-regulated protein that functions together with the transcriptional activator NPH4/ARF7 to regulate differential growth responses of hypocotyl and formation of lateral roots in Arabidopsis thaliana. Plant Cell, 16, 379-393.
Watahiki MK, Trewavas AJ, Parton RM (2004) Fluctuations in the pollen tube tip-focused calcium gradient are not reflected in nuclear calcium level: a comparative analysis using recombinant yellow cameleon calcium reporter. Sexual Plant Reproduction, 17, 125-130.
Parton RM, Fischer-Parton S, Trewavas AJ and Watahiki MK (2003) Pollen tubes exhibit regular periodic membrane trafficking events in the absence of apical extension. Journal of Cell Science, 116, 2707-2719.
Parton R. M., Fischer-Parton S., Watahiki M. K. and Trewavas A. J. (2001) Dynamics of the apical vesicle accumulation and the rate of growth are related in individual pollen tubes. Journal of Cell Science, 114, 2685-2695.
Fujihira K., Kurata T., Watahiki M. K., Karahara I. and Yamamoto K. T. (2000) An agravitropic mutant of Arabidopsis, endodermal-amyloplast less 1, that lacks amyloplasts in hypocotyl endodermal cell layer. Plant and Cell Physiology, 41, 1193-1199.
Harper R. M., Stowe-Evans E. L., Luesse D. R., Muto H., Tatematsu K., Watahiki M. K., Yamamoto K. T. and Liscum E. (2000) The NPH4 locus encodes the auxin response factor ARF7, a conditional growth in aerial tissues of Arabidopsis thaliana. Plant Cell, 12, 757-770.
Watahiki M. K., Fujihira K., Tatematsu K., Yamamoto M. and Yamamoto K. T. (1999) The MSG1 and AXR1 genes of Arabidopsis are likely to act independently in growth-curvature response of hypocotyls. Planta, 207, 362-369.
Watahiki M. K. and Yamamoto K. T. (1997) The massugu1 mutation of Arabidopsis identified with failure of auxin-induced growth curvature of hypocotyl confers auxin insensitivity to hypocotyl and leaf. Plant Physiology, 115, 419-426.
Watahiki M. K., Mori H. and Yamamoto K. T. (1995) Inhibitory effects of auxins and related substances on the activity of an Arabidopsis glutathione S-transferase isozyme expressed in Escherichia coli. Physiologia Plantarum, 94, 566-574.
Watahiki M. K. and Yamamoto K. T. (1994) A new isozyme of plastid omega-3 fatty acid desaturase in Arabidopsis thaliana. Plant Physiology, 105, 1451-1452
著書,総説 – Book, review
綿引雅昭,山本興太朗 (2010) オーキシン応答の可視化.植物のシグ ナル伝達-分子と応答-
-(柿本辰男,高山誠司,福田裕穂,松岡信編集),共立出版, 210-215(ISBN978-4-320-05703-6)
講演 – Lecture
綿引雅昭:短寿命ルシフェラーゼを用いたオーキシン応答の可視化で明らかにする植物の環境感覚
日本宇宙生物科学会第26回大会シンポジウム,平成24年9月27日~29日,徳島市(シンポジウム発表)
綿引雅昭:Live-imaging of auxin signal transduction and morphogenesis
シンポジウム“New technology for frontier research of plant environmental perception”,平成23年3月16日~18日,京都産業大学(シンポジウム発表)
綿引雅昭,山本興太朗:発光レポーターを使った可視化技術で見るオーキシン応答
シンポジウム“オーキシン研究の新展開と展望”,平成21年3月21日~24日,名古屋大学(シンポジウムオーガナイザー,発表)
綿引雅昭:“発光レポーターを使って見えてきた植物のライブオーガンイメージング”
シンポジウム”視る生物学3”,平成20年11月20日~21日,奈良先端科学技術大学院大学(シンポジウム発表)
綿引雅昭:“ルシフェラーゼを用いたオーキシン応答の可視化”
シンポジウム“視る生物学2”,平成19年11月21日~22日,奈良先端科学技術大学院大学(シンポジウム発表)
学会発表 – Conference presentation
多数
外部資金 – Outside funds
新学術領域研究「植物の環境感覚」,2013-2015,「新規オーキシンレポーターによるオーキシン応答再編メカニズムの解明」,研究代表者(公募研究),10,000千円
新学術領域研究「植物の環境感覚」,2011~2012,「発光を用いた植物環境センサーとイメージング技術の開発」,研究代表者(公募研究),4,040千円
特定領域研究「植物メリステムと器官の発生を支える情報統御系」,2007~2012,「植物ホルモンであるオーキシンによる統御系」,研究分担者(山本興太朗 研究代表者),120,600千円
特定領域研究(計画研究),2006,「オーキシン情報伝達系の分子機構研究」,研究分担者(山本興太朗 研究代表者),22,200千円
その他活動 – Other activities
平成25-26年度 宇宙環境利用科学委員会 ワーキンググループ
平成25年度- 北海道植物学会 会計幹事
平成23-24年度 日本植物生理学会評議員
平成30年 第59回日本植物生理学会年会 実行委員
