1. Bergoglio E, Suzuki IK, Tsuji M, Togashi K, Takeuchi S, Koizumi H & Emoto K
  2. Spatial and temporal diversity of DCLK1 isoforms in the developing mouse cortex.

Neuroscience Research 170: 154-165 (2021).

  1. Furusawa K & Emoto K
  2. Spatiotemporal control of developmental neurite pruning: Molecular and cellular insights from Drosophila models.

Neuroscience Research 167: 54-63 (Invited Review) (2021).

  1. Furusawa K & Emoto K
  2. Scrap and build for functional neural circuits: Spatiotemporal regulation of dendrite degeneration and regeneration in development and disease.

Frontiers in Cellular Neuroscience 14: 613320 (Invited Review) (2021).


  1. Omamiuda-Ishikawa N, Sakai M & Emoto K

A pair of ascending neurons in the subesophageal zone mediates aversive sensory inputs-evoked backward locomotion in Drosophila larvae.
PLoS Genetics 16: e1009120 (2020).

  1. Kitatani Y, Tezuka A, Hasegawa E, Yagagi S, Togashi K, Tsuji M, Kondo S, Parrish JZ & Emoto K

Drosophila miR-87 promotes dendrite regeneration by targeting the transcriptional repressor Tramtrack69.
PLoS Genetics 16: e1008942 (2020).

  1. Togashi K, Tsuji M, Takeuchi S, Nakahama R, Koizumi H & Emoto K

Adeno associated virus-mediated single cell labeling of mitral cells in the mouse olfactory bulb: Insights into the developmental dynamics of dendrite remodeling.
Frontiers in Cellular Neuroscience 14: 572256 (2020).

  1. Yoshino J, Emoto K & Parrish JZ

Think globally, act locally: Scaling the growth of motor neurons.
Developmental Cell 54: 5-6 (Invited Review) (2020).

  1. 竹内俊佑・冨樫和也・榎本和生

Clinical Neuroscience 「特集:脳の発生とその異常」38: 1534-1538 (2020).


  1. 中浜涼太・増岡宏哉・長谷川恵理・冨樫和也・榎本和生

生体の科学「特集:脳神経回路のダイナミクスから探る脳発達・疾患・老化」70: 14-18 (2019).

  1. 辻真人・中溝真未・榎本和生

生体の科学「特集:脳神経回路のダイナミクスから探る脳発達・疾患・老化」70: 48-52 (2019).


  1. Nao Utashiro, Claire Williams, Jay Parrish, Kazuo Emoto

Prior activity of olfactory receptor neurons is required for proper sensory processing and behavior.
Scientific Reports ; 8: 8580

  1. 長谷川恵理・北谷育子・柳学理・榎本和生

実験医学36号: 1978-1986 (2018).

  1. 竹内俊祐・藤島航大・奥山圭・冨樫和也・榎本和生

実験医学36号: 2024-2029 (2018).



    1. Yoshino J, Morikawa R, Hasegawa E and Emoto K.

Neural circuitry that evokes escape behavior in response to nociceptive stimuli in Drosophila larvae.
Curr Biol 27: 2499-2504 (2017).

    1. Koizumi H, Fujioka H, Togashi K, Thompson J, Yates JR, 3rd, Gleeson JG, and Emoto K.

DCLK1 phosphorylates the microtubule-associated protein MAP7D1 to promote axon elongation in cortical neurons
Developmental Neurobiology Apr;77(4):493-510 (2017). 



  1. Togashi K, Koizumi H, Kanamori T and Emoto K

Molecular control of dendrite remodeling.
Dendrites: Development and Disease



  1. Yasunaga K, Tezuka A, Ishikawa N, Dairyo Y, Togashi K, Koizumi H and Emoto K

Adult Drosophila sensory neurons specify dendrite boundaries independently of dendritic contacts through the Wnt5-Drl signaling pathway.
Genes Dev 29: 1763-1775 (2015).

  1. Kanamori T, Togashi K, Koizumi H and Emoto K

Dendrite pruning: lessons from invertebrate model systems.
Int Rev Cell Mol Biol (Invited Review) 318: 1-25 (2015).
Kanamori, T., Yoshino, J., Yasunaga, K., Dairyo, Y., and Emoto, K.
Local endocytosis triggers dendrite thinning and pruning in Drosophila sensory neurons.
Nature Communications 6: 6515 (2015).

  1. 榎本和生

「概論:脳神経回路ダイナミクス −個性を生み出す神経基盤への挑戦−」
実験医学「特集:脳神経回路リモデリング」33: 1360-1363 (2015).

  1. 富樫和也・手塚茜・石川夏子・古泉博之・榎本和生

実験医学「特集:脳神経回路リモデリング」33: 1371-1377 (2015).


Yang, L., Li, R., Kaneko, T., Takle, K., Morikawa, K.R., Essex, L., Wang, X., Zhou, J., Xing, Y., Emoto, K., and Ye, B.
Trim9 regulates activity-dependent fine-scale topography in Drosophila.
Curr. Biol. 24: 1024-1030 (2014).

「Hippo pathwayによる神経回路構築制御と神経疾患」
「特集:広がるHippo pathway研究—癌から各種疾患へ」
医学のあゆみ 235: 1051-1055 (2014).

遺伝学の謎(共著)悠書館 (2014).


Kanamori, T., Kanai, M., Dairyo, Y., Yasunaga, K., Morikawa, R., and Emoto, K.
Compartmentalized calcium transients trigger dendrite pruning in Drosophila sensory neurons.
Science 340: 1475-1478 (2013).

Sakurai, A., Koganazawa, M., Yasunaga, K., Emoto, K., and Yamamoto, D.
Select interneuron clusters determine female choosiness in Drosophila.
Nature Communications 4: 1825 (2013).

Kato, U., Inadome, H., Yamamoto, M., Emoto, K., Kobayashi, T., and Umeda, M.
A phospholipid flippase complex of Type IV P-type ATPase ATP8A1 and CDC50A is required for cell migration.
J. Biol. Chem. 288: 4922-4934 (2013).

実験医学 31: 2603-2606 (2013).

血管医学 14: 267-272 (2013).

脳の発生学(共著)化学同人 90-104 (2013).

遺伝学図鑑(共著)悠書館 (2013).


Emoto, K.
Signaling mechanisms that coordinate the development and maintenance of dendritic fields.
Curr. Opin. Neurobiol. (Invited Review) 22: 805-811 (2012).

Eneling, K., Brion, L., Pinto, V., Pinho, M. J., Mochizuki, N., Emoto, K., Soares-da-Silva, P., and Bertorello, A. M.
Salt-inducible kinase 1 regulates E-cadherin expression and intercellular junction stability.
FASEB J. 26:3230-3239 (2012).

Lee, S., Uchida, Y., Emoto, K., Umeda, M., Kuge, O., Taguchi, T., and Arai, H.
Impaired retrograde membrane traffic in a mutant CHO cell defective in phosphatidylserine synthesis.
Genes Cells 17:728-736 (2012).


Morikawa R., Kanamori, T., Yasunaga, K., and Emoto, K.
Different levels of the TRIM protein Asap regulate distinct axonal projections of Drosophila sensory neurons.
Proc. Natl. Acad. Sci. USA 108: 19389-19394 (2011).

Yasunaga, K and Emoto, K.
Matrix metalloproteinases in neuronal plasticity and disease.
Matrix Metalloproteinases: Biology, Functions and Clinical Implications. (Invited Review) NOVA Bioscience Press (2011).

Emoto, K.
The growing role of the Hippo-NDR kinase signaling in neuronal development and disease.
J. Biochem. (Invited Review) 150: 133-141 (2011).

Emoto, K.
Dendrite remodeling in development and disease.
Dev. Growth Differ. (Invited Review) 53: 277-286 (2011).

Hippo pathwayが制御する多彩な細胞機能
細胞工学 特集Hippo Pathway:癌・細胞死・再生の新たな鍵を握る器官サイズ制御シグナル30: 918-922 (2011).

ファルマシア47: 306-310 (2011).


Yasunaga, K., Kanamori T., Morikawa, R., Suzuki, E., and Emoto, K.
Dendrite reshaping of adult Drosophila sensory neurons requires matrix metalloproteinase- mediated modification of the basement membranes.
Dev. Cell 18: 621-632 (2010).

Fang, X., Lu, Q., Emoto, K., and Adler, P. N.
The Drosophila Furry protein interacts with Trc and is highly mobile in vivo.
BMC Dev. Biol. 10: 40 (2010).

細胞工学 29: 480-481 (2010).

生化学「特集:細胞外プロテオリシス研究の最前線」82: 972-978 (2010).

医学のあゆみ「特集:エピゲノム研究最前線」235: 1051-1055 (2010).


Koike-Kumagai, M., Yasunaga, K., Morikawa, R., Kanamori T., and Emoto, K.
The target of rapamycin complex 2 controls dendritic tiling of Drosophila sensory neurons through the Tricornered kinase signaling pathway.
EMBO J. 28: 3879-3892 (2009).

細胞工学28: 623 (2009).


BRAIN and NERVE「特集:神経系の発生とその異常」60: 351-364 (2008).

生化学 80:811-819 (2008).

ファルマシア 44:1157-1160 (2008).


Soba, P., Zhu, S., Emoto, K., Younger, S., Yang, S.J., Yu, H.H., Lee, T., Jan, L.Y., and Jan, Y.N.:
Drosophila sensory neurons require Dscam for dendrite self-avoidance and proper dendritic organization.
Neuron 54: 403-416 (2007).

Parrish, J. Z., Emoto, K., Jan, L., and Jan, Y. N.
Polycomb genes interact with the tumor suppressor hippo and warts in the maintenance of Drosophila sensory neuron dendrites.
Genes Dev. 21: 956-972 (2007).

Parrish, J. Z.*, Emoto, K.*, Kim, M. D., and Jan, Y. N.
Mechanisms that regulate establishment, maintenance, and remodeling of dendritic fields. (*equal contribution).
Annu. Rev. Neurosci. 30: 399-423 (2007).

Special Review「ニューロン受容領域のタイル化を制御するリン酸化シグナルネットワーク」
細胞工学26: 806-810 (2007).

蛋白質核酸酵素54: 842-852 (2007).


Emoto, K., Parrish, J. Z., Jan, L., and Jan, Y. N.
The tumour suppressor Hippo acts with the NDR kinases in dendritic tiling and maintenance.
Nature 443: 210-213 (2006).

実験医学 24: 2985-2988 (2006).


Emoto, K., Inadome, H., Kanaho, Y., Narumiya, S., and Umeda, M.
Local change of phospholipid composition at the cleavage furrow is essential for completion of cytokinesis.
J. Biol. Chem. 280: 37901-37907 (2005).

He, Y., Emoto, K., Fang, X., Ren, N., Tian, X., Jan, Y. N., and Adler, P. N.
Drosophila Mob family proteins interact with the related Tricornered (Trc) and Warts (Wts) Kinases.
Mol. Biol. Cell 16: 4139-4152 (2005).

Waldhuber, M., Emoto, K., and Petrisch, C.
The Drosophila caspase DRONC is required for metamorphosis and cell death in response to irradiation and developmental signals.
Mech. Dev. 122: 914-927 (2005).

He, Y., Fang, X., Emoto, K., Jan, Y. N., and Adler, P. N.
The tricornered Ser/Thr protein kinase is regulated by phosphorylation and interacts with furry during Drosophila wing hair development.
Mol. Biol. Cell 16: 689-700 (2005).

細胞工学 24: 262-263 (2005).


Emoto, K., He, Y., Ye, B., Grueber, W. B., Adler, P. N., Jan, L. Y., and Jan, Y. N.
Control of dendritic branching and tiling by the Tricornered-kinase/Furry signaling pathway in Drosophila sensory neurons.
Cell 119: 245-256 (2004).

Ichimura, Y., Imamura, Y., Emoto, K., Umeda, M., Noda, T., and Ohsumi, Y.
In vivo and in vitro reconstitution of atg8 conjugation essential for autophagy.
J. Biol. Chem. 279: 40584-40592 (2004).


Kametaka, S., Shibata, M., Moroe, K., Kanamori, S., Ohsawa, Y., Waguri, S., Sims, P. J., Emoto, K., Umeda, M., and Uchiyama, Y.
Identification of phospholipid scramblase 1 as a novel interacting molecule with β-secretase (BACE).
J. Biol. Chem. 278: 15239-15245 (2003).


Kato, U., Emoto, K., Fredriksson, C., Nakamura, H., Ohta, A., Kobayashi, T., Murakami-Murobushi, K., Kobayashi, T., and Umeda, M.
Ros3p, a novel membrane protein, is required for phospholipid translocation across the plasma membrane in Saccharomyces cerevisiae.
J. Biol. Chem. 277: 37855-37862 (2002).

Emoto, K., and Umeda, M.
Membrane lipid control of cytokinesis.
Cell Struct. Funct. (Invited Review) 26: 569-575 (2002).

Emoto, K., and Umeda, M.
Apoptosis by phosphatidylserine in mammalian cells. Phospholipid metabolism in apoptosis. (edited by Quinn, P.J.& Kagan, V.)
Subcell. Biochem. (Invited Review) 36: 61-71 (2002) Plenum Press. New York.

膜 27: 63-73 (2002).

実験医学 20: 2333-2338 (2002).

生体の科学 53: 232-236 (2002).


Imai, H., Suzuki, K., Ishizaka, K., Oshima, H., Ichinose, S., Okayasu, I., Emoto, K., Umeda, M., and Nakagawa, Y.
Failure of the expression of phospholipid hydroperoxide glutathione peroxidase (PHGPx) in the spermatozoa of infertile males.
Biol. Reprod. 64: 674-683 (2001).

Umeda, M., Emoto, K., and Kato, U.
Regulation of actin filament organization by transbilayer redistribution of membrane phospholipids.
Proc. Int. Sympo. Adv. Phys. Fields 7: 131-134 (2001).

生化学 73: 366-370 (2001).

蛋白質核酸酵素 46: 498-805 (2001).

蛋白質核酸酵素 46: 188-190 (2001).


Emoto, K., and Umeda, M.
An essential role for a membrane phospholipid in cytokinesis: Regulation of contractile ring disassembly by redistribution of phosphatidylethanolamine.
J. Cell Biol. 149: 1215-1224 (2000).

Emoto, K., Kuge, O., Nishijima, M., and Umeda, M.
Isolation of a Chinese hamster ovary cell mutant defective in intramitochondrial transport of phosphatidylserine.
Proc. Natl. Acad. Sci. USA 96: 12400-12405 (1999).

Arai, M., Imai, H., Koumura, T., Yoshida, M., Emoto, K., Umeda, M., Chiba, N., and Nakagawa, Y.
Mitochondrial phospholipid hydroperoxide glutathione peroxidase plays a major role in preventing oxidative injury to cells.
J. Biol. Chem. 274: 4924-4933 (1999).

Ikemoto, A., Kobayashi, T., Emoto, K., Umeda, M., Watanabe, S., and Okuyama, H.
Effects of docosahexaenoic and arachidonic acids on the synthesis and distribution of aminophospholipids during neuronal differentiation of PC 12 cells.
Arch. Biochem. Biophys. 364: 67-74 (1999).

Umeda, M., and Emoto, K.
Membrane phospholipid dynamics during cytokinesis: regulation of actin filament assembly by redistribution of membrane surface phospholipid.
Chem. Phys. Lipids (Invited Review) 101: 81-91 (1999).

Uchida, K., Emoto, K., Daleke, D. L., Inoue, K., and Umeda, M.
Induction of apoptosis by phosphatidylserine.
J. Biochem. 123: 1073-1078 (1998).

Yamaji, A., Sekizawa, Y., Emoto, K., Sakuraba, H., Inoue, K., Kobayashi, H., and Umeda, M
Lysenin, a novel sphingomyelin-specific binding protein.
J. Biol. Chem. 273: 5300-5306 (1998).

Emoto, K., Toyama-Sorimachi, N., Karasuyama, H., Inoue, K., and Umeda, M.
Exposure of phosphatidylethanolamine on the surface of apoptotic cells.
Exp. Cell Res. 232: 430-434 (1997).

Emoto, K., Kobayashi, T., Yamaji, A., Aizawa, H., Yahara, I., Inoue, K., and Umeda, M.
Redistribution of phosphatidylethanolamine at the cleavage furrow of dividing cells during cytokinesis.
Proc. Natl. Acad. Sci. USA 93: 12867-12872 (1996).

蛋白質核酸酵素 44: 1173-1180 (1999).

生物物理 221: 18-23 (1999).

蛋白質核酸酵素 13: 1973-1980 (1998).

図説細胞生物学 44-61 丸善 (1998).

実験医学 15: 1470-1475 (1997).

グリコバイオロジーシリーズ(共著)108-123 講談社 (1993).