原著論文・総説・著書

原著論文

2016

1. Matsuoka K, Sugawara E, Aoki R, Takuma K, Morita MT, Satoh S, Asahina M. (2016) Differential cellular control by cotyledon-derived phytohormones involved in graft reunion of Arabidopsis hypocotyls. Plant Cell Physiol. 57: 2620-2631. doi:10.1093/pcp/pcw177
2. Mori, A., Toyota, M., Shimada, M., Mekata, M., Kurata, T., Tasaka, M., Morita, M.T. (2016) Isolation of new gravitropic mutants under hypergravity conditions. Front. Plant Sci.7:1443. doi: 10.3389/fpls.2016.01443
3. Ogawa,T., Mori, A., Igari, K., Morita, M.T., Tasaka, M., Uchida, N. (2016) Efficient in planta detection and dissection of de novo mutation events in the Arabidopsis thaliana disease resistance gene UNI. Plant Cell Physiol. 57(6):1123-1132. doi:10.1093/pcp/pcw060
4. Okamoto, K., Ueda, H., Shimada, T., Tamura, K., Koumoto, Y., Tasaka, M., Morita, M.T., Hara-Nishimura, I. (2016) An ABC transporter B family protein, ABCB19, is required for cytoplasmic streaming and gravitropism of the inflorescence stems. Plant Signal Behav. 11: e1010947, DOI:10.1080/15592324.2015.1010947

2015

5. Wang, H., Yang, K., Zou, J., Zhu, L., Xie, Z., Morita, M.T., Tasaka, M., Friml, J., Grotewold, E., Beeckman, T., Vanneste, S., Sack, F., Le, J. (2015) Transcriptional regulation of PIN genes by FOUR LIPS and MYB88 during Arabidopsis root gravitropism. Nat. Commun. 6, Article number: 8822, doi:10.1038/ncomms9822
6. Okamoto, K., Ueda, H., Shimada, T., Tamura, K., Kato, T., Tasaka, M., Morita, M.T., Hara-Nishimura, I. (2015) Regulation of organ straightening and plant posture by an actin–myosin XI cytoskeleton. Nature Plants 1:Article number: 15031, doi:10.1038/nplants.2015.31
7. Nakamura, M., Toyota, M., Tasaka, M., Morita, M. T. (2015) Live cell imaging of cytoskeletal and organelle dynamics in gravity-sensing cells in plant gravitropism. Methods Mol. Biol. 1309, 57-69. doi: 10.1007/978-1-4939-2697-8_6.

2014

8. Le J, Liu XG, Yang KZ, Chen XL, Zou JJ, Wang HZ,, Wang M,Vanneste S, Morita M, Tasaka M, Ding ZJ, Friml J, Beeckman T, and Sack F. (2014) Auxin transport and activity regulate stomatal patterning and development.Nat Commun, 5: Article number:3090.
9. Toyota, M., Ikeda, N., Tasaka, M. and Morita, M. T. (2014) Centrifuge Microscopy to Analyze the Sedimentary Movements of Amyloplasts. Bio-protocol, 4(17): e1229. http://www.bio-protocol.org/e1229
10. Taniguchi M, Nakamura M, Tasaka M, Morita MT. (2014) Identification of gravitropic response indicator genes in Arabidosis inflorescence stems. Plant Signal Behav, 9, e29570.
11. Hashiguchi Y, Yano D, Nagafusa K, Kato T, Saito C, Uemura T, Ueda T, Nakano A, Tasaka M, and Morita MT. (2014) A unique HEAT repeat-containing protein SHOOT GRAVITROPISM6 is involved in vacuolar membrane dynamics in gravity sensing cells of Arabidopsis inflorescence stem. Plant Cell Physiol. 55, 811-822.

2013

12. Toyota M, Ikeda N, Sawai-Toyota S, Kato T, Gilroy S, Tasaka M, Morita MT. (2013) Amyloplast displacement is necessary for gravisensing in Arabidopsis shoots as revealed by a centrifuge microscope. Plant J, 76, 648-660.

2011

13. Saito C, Uemura T, Awai C, Tominaga M, Ebine K, Ito J, Ueda T, Abe H, Morita MT, Tasaka M, Nakano A. (2011) The occurrence of 'bulbs', a complex configuration of the vacuolar membrane, is affected by mutations of vacuolar SNARE and phospholipase in Arabidopsis. Plant J, 68, 64-73.
14. Nakamura, M., Toyota, M., Tasaka, M., Morita, M.T. (2011) An Arabidopsis E3 Ligase SHOOT GRAVITROPISM 9 Modulates the Interaction between Statoliths and F-Actin in Gravity Sensing. Plant Cell, 23, 1830-1848.
15. Ding Z, Galvan-Ampudia CS, Demarsy E, Langowski L, Kleine-Vehn J, Fan Y, Morita MT, Tasaka M, Fankhauser C, Offringa R, Friml J. (2011) Light-mediated polarization of the PIN3 auxin transporter for the phototropic response in Arabidopsis. Nat Cell Biol, 13, 447-452.
16. Toyota, M., Matuda, K., Kakutani, T., Morita, M.T., Tasaka, M. (2011) Developmental changes in crossover frequency in Arabidopsis. Plant J, 65, 588-599

2010

17. Kleine-Vehn, J., Morita, M.T., Tasaka, M., Friml, J. (2010) Gravity-induced PIN transcytosis for polarization of auxin fluxes in gravity-sensing root cells. Proc Natl Acad Sci U S A, 107, 22344-22349.
18. Uemura, T., Morita, M., Ebine, K., Okatani, Y., Yano, D., Saito, C., Ueda, T., and Nakano, A. (2010) Vacuolar/prevacuolar compartment Qa-SNAREs, VAM3/SYP22 and PEP12/SYP21 have interchangeable functions in Arabidopsis. Plant J, 64, 864-873.
19. Kato, T., Morita, M.T., Tasaka, M. (2010) Defects in dynamics and functions of actin filament in Arabidopsis caused by the dominant-negative actin fiz1 induced fragmentation of actin filament. Plant Cell Physiol, 51, 333-338.
20. Zadnikova, P., Petrasek, J., Marhavy, P., Raz, V., Vandenbussche, F., Ding, Z., Schwarzerova, K., Morita, M.T., Tasaka, M., Hejatko, J., Van Der Straeten, D., Friml, J., Benkova, E. (2010) Role of auxin efflux in apical hook development of Arabidopsis thaliana. Development, 37, 607-617.
21. Hashiguchi, Y., Niihama, M., Takahashi, T., Saito, C., Nakano, A., Tasaka, M., Morita, M.T. (2010) Loss-of-function mutations of retromer large subunits suppress the phenotype of zig mutant that lacks Qb-SNARE VTI11. Plant Cell, 22, 159-172.

2009

22. Niihama M, Takemoto N, Hashiguchi Y, Tasaka M and Morita MT. (2009). ZIP genes encode proteins involved in membrane trafficking of the TGN-PVC/vacuoles. Plant Cell Physiol, 50, 2057-68.
23. Hamaji K, Nagira M, Yoshida K, Ohnishi M, Oda Y, Uemura T, Goh T, Sato MH, Morita MT, Tasaka M, Hasezawa S, Nakano A, Hara-Nishimura I, Maeshima M, Fukaki H and Mimura T. (2009). Dynamic aspects of ion accumulation by vesicle traffic under salt stress in Arabidopsis. Plant Cell Physiol, 50, 2023-33.

2008

24. Dello Ioio R, Nakamura K, Moubayidin L, Perilli S, Taniguchi M, Morita MT, Aoyama T, Costantino P, Sabatini S. (2008) A genetic framework for the control of cell division and differentiation in the root meristem. Science, 322, 1380-1384.
25. Ebine, K., Okatani, Y., Uemura, T., Goh, T., Shoda, K., Niihama, M., Morita, M.T., Spitzer, C., Otegui, M.S., Nakano, A., and Ueda, T. (2008) A SNARE Complex Unique to Seed Plants Is Required for Protein Storage Vacuole Biogenesis and Seed Development of Arabidopsis thaliana. Plant Cell 20, 3006-3021.

2007

26. Yamaguchi, N., Suzuki, M., Fukaki, H., Morita-Terao, M., Tasaka, M., and Komeda, Y. (2007). CRM1/BIG-mediated auxin action regulates Arabidopsis inflorescence development. Plant Cell Physiol 48, 1275-1290.
27. Morita, M.T., Saito, C., Nakano, A. and Tasaka, M. (2007) endodermal-amyloplast less 1 is a novel allele of SHORT-ROOT. Advances in Space Research, 39, 1127-1133, 2007.

2006

28. Morita, M., Sakaguchi, K., Kiyose, S., Taira, K., Kato, T., Nakamura, M., and Tasaka, M. (2006). A C2H2-type zinc finger protein, SGR5, is involved in early events of gravitropism in Arabidopsis inflorescence stems. Plant J, 47, 619-628.
29. Kitazawa, D., Hatakeda, Y., Kamada, M., Fujii, N., Miyazawa, Y., Hoshino, A., Iida, S., Fukaki, H., Morita, M., Tasaka, M., Suge, H., and Takahashi, H. (2005). Shoot circumnutation and winding movements require gravisensing cells. Proc Natl Acad Sci U S A, 102, 18742-18747.

2005

30. Niihama, M., Uemura, T., Saito, C., Nakano, A., Sato, M., Tasaka, M., and Morita, M. (2005). Conversion of functional specificity in Qb-SNARE VTI1 homologues of Arabidopsis. Curr Biol, 15, 555-560.
31. Saito, C., Morita, M., Kato, T., and Tasaka, M. (2005). Amyloplasts and vacuolar membrane dynamics in the living graviperceptive cell of the Arabidopsis inflorescence stem. Plant Cell 17, 548-558.

2003

32. Surpin, M., Zheng, H., Morita, M. T., Saito, C., Avila, E., Blakeslee, J. J., Bandyopadhyay, A., Kovaleva, V., Carter, D., Murphy, A., Tasaka, M., and Raikhel, N. (2003) The VTI family of SNARE proteins is necessary for plant viability and mediates different protein transport pathways. Plant Cell, 15, 2885-2899.
33. Yano, D., Sato, M., Saito, C., Sato, M. H., Morita, M. T. and Tasaka, M. (2003) A SNARE complex containing SGR3/AtVAM3 and ZIG/VTI11 in gravity-sensing cells is important for Arabidopsis shoot gravitropism. Proc Natl Acad Sci U S A 100, 8589-8594.

2002

34. Morita, M. T., Kato, T., Nagafusa K., Saito, C., Ueda, T., Nakano, A. and Tasaka, M. (2002) Involvement of the vacuoles of the endodermis in early process of shoot gravitropism in Arabidopsis. Plant Cell,14, 47-56.
35. Kato, T., Morita, M.T., Fukaki, H., Yamauchi, Y., Uehara, M., Niihama, M. and Tasaka, M. (2002) SGR2, a phospholipase-like protein, and ZIG/SGR4, a SNARE, are involved in the shoot gravitropism of Arabidopsis. Plant Cell, 14, 33-46.

総説

1. Hashiguchi Y, Tasaka M, Morita MT. (2013) Mechanism of higher plant gravity sensing. Am J Bot, 100, 91-100
2. Yasuko Hashiguchi, Masao Tasaka, and Miyo Terao Morita (2013) Mechanism of higher plant gravity sensing. American Journal of Botany 100, 91-100.
3. Miyo Terao Morita and Moritaka Nakamura (2012) Dynamic behavior of plastids related to environmental response. Current Opinion in Plant Biology 15, 722-728.
4. 豊田正嗣、森田(寺尾)美代、池田憲文、田坂昌生 2012年 「重力感受をライブで視るための新しい顕微鏡技術」Plant Morphology Vol.24 pp.23-32.
5. 森田（寺尾）美代、橋口泰子　2011年　「高等植物の重力感受機構」　細胞工学　30巻 第2号 137-141.
6. Morita, Miyo Terao and Tasaka, Masao (June 2010) Tropism. In: ENCYCLOPEDIA OF LIFE SCIENCES 2010, John Wiley & Sons, Ltd
7. Morita, M. T. (2010) Directional gravity sensing in gravitropism. Annu. Rev. Plant. Biol, 61, 705-720
8. 豊田正嗣、森田（寺尾）美代　2010年「植物の重力感受機構モデル〜デンプン平衡石仮説〜の再検証」生化学　ミニレビュー　82巻 8号　730-734.
9. 中村守貴、田坂昌生、森田（寺尾）美代　2009年　「高等植物における重力感受の分子機構」生物物理　49号 3巻　116-121.
10. 森田（寺尾）美代　2008年　「重力屈性から解くメンブレントラフィック」蛋白質核酸酵素、53, 2308-2312.
11. 新濱充、森田（寺尾）美代、田坂昌生　2006年 「植物の重力屈性の分子機構」植物の生長調節
12. Morita, M.T. and Tasaka, M. (2004) Gravity sensing and signaling. Current Opinion in Plant Biology, 7/6: 712-718.
13. 森田（寺尾）美代、田坂昌生、2003年、高等植物の重力屈性における重力刺激伝達機構、宇宙生物科学、17.
14. Kato, T., Morita M.T. and Tasaka, M. (2002) Role of Endodermal Cell Vacuoles in Shoot Gravitropism. Journal of Plant Growth Regulation 21:113-119.
15. 森田（寺尾）美代、加藤壮英、田坂昌生、2002年、植物はどのように重力方向を知るのか、蛋白質核酸酵素 47:1690-1694.

著書

1. Kato, T., Toyota, M., Tasaka, M., and Morita, M.T. (2014) Mini-history of map-based cloning in Arabidopsis. In Cleaved Amplified Polymorphic Sequences (CAPS) Markers In Plant Biology, Ed. Shavrukov, NOVA Publishers, New York. p. 1-20.
2. Moirta, M.T., Nakamura, M. and Tasaka, M. (2012) Gravity sensing, interpretation, and response. In Biocommunication of Plants, Ed. Witzany and Baluska, Springer p.51-66
3. Harrison, B.R., Morita, M.T., Masson, P.H., and Tasaka, M. (2007) Signal transduction in gravitropism. In Plant Tropism (Blackwell Publishing) p.21-45
4. 森田（寺尾）美代 2006年 「重力屈性における重力感受」 Advanced Biomimetics Series 1プラントミメティックス —植物に学ぶ— （甲斐昌一、森川弘道　監修）NTS, 344-350.
5. Masson, P.H., Tasaka, M., Morita, M.T., Guan, C., Chen, R. and Boonsirichai, K. (2002) Arabidopsis thaliana: A model for the study of root and shoot gravitropism. In The Arabidopsis Book (American Society of Plant Biologists)