<1994年以降の論文>
Science 226, 578-580.
Neuron 15, 63-78.
Development 124, 2709-2718.
Ann. Rev. Neurosci. 21, 445-477.
Mech. Dev. 72, 77-88.
Cell 93, 755-766.
8.Puelles, L., Kuwana, E., Puelles, E., Bulfone, A., Shimamura, K., Keleher, G., Smiga, S. M. and Rubenstein, J. L. R. (2000) Pallial and subpallial derivatives in the embryonic chick and mouse telencephalon, traced by the expression of the genes Dlx-2, Emx-1, Nkx-2.1, Pax-6 and Tbr-1.
9.Mizuguchi, R., Sugimori, M., Takebayashi, H., Kosako, H., Nagao, M., Yoshida, S., Nabeshima, Y., Shimamura, K., and Nakafuku, M. (2001) Combinatorial roles of Olig2 and Neurogenin2 in the coordinated induction of pan-neuronal and subtype-specific properties of motoneurons.
Neuron 31, 759-773.
10.Cobos, I., Shimamura, K., Rubenstein, J. L. R., Martinez, S., and Puelles, L. (2001) Fate map of the avian anterior forebrain at the 4 somite stage, based on the analysis of quail-chick chimeras.
Dev. Biol. 239, 46-67.
Development 128(8), 1313-22.
12.Kobayashi, D., Kobayashi, M., Matsumoto, K., Ogura, T., Nakafuku, M., and Shimamura, K. (2002) Early subdivisions in the neural plate define distinct competence for inductive signals.
Development 129, 83-93.
Development 129(18), 4347-57.
14.Hatakeyama, J., Kageyama, R. (2002) Retrovirus-mediated gene transfer to retinal explants.
Methods 28(4), 387-95.
15.Lagutin, O. V., Zhu, C. C., Kobayashi, D., Topczewski, J., Shimamura, K., Puelles, L., Russell, H. R. C., McKinnon, P. J., Solnica-Krezel, L., and Oliver, G. (2003) Six3 repression of Wnt signaling in the anterior neuroectoderm is essential for vertebrate forebrain development.
Genes Dev. 17, 368-379.
16.Hashimoto-Torii, K., Motoyama, J., Hui, C.-C., Kuroiwa, A., Nakafuku, M., and Shimamura, K. (2003) Differential activities of Sonic hedgehog mediated by Gli transcription factors define distinct neuronal subtypes in the dorsal thalamus.
Mech. Dev. 120, 1097-1111.
17.Watabe-Uchida, M., Masuda, A., Shimada, N., Endo, M., Shimamura, K., Yasuda, K., Sehara-Fujisawa, A. (2004) Novel metalloprotease-disintegrin, Meltrin epsilon (ADAM35), expressed in epithelial tissues during chick embryogenesis.
Dev. Dyn. 230, 557-568.
18.Hatakeyama, J., Kageyama, R. (2004) Retinal cell fate determination and bHLH factors.
Seminars in Cell & Developmental Biology 15(1), 83-9.
19.Hatakeyama, J., Bessho, Y., Katoh, K., Ookawara, S., Fujioka, M., Guillemot, F., Kageyama, R. (2004) Hes genes regulate size, shape and histogenesis of the nervous system by control of the timing of neural stem cell differentiation.
Development 131(22), 5539-50.
Brain Research 1004(1-2),148-55.
21.Azuma, N., Tadokoro, K., Asaka, A., Yamada, M., Yamaguchi, Y., Handa, H., Matsushima, S., Watanabe, T., Kohsaka, S., Kida, Y., Ogura, T., Shimamura, K., Nakafuku, M. (2005) The Pax6 isoform bearing an alternative spliced exon promotes the development of the neural retinal structure.
Human Mol. Genet. 14, 735-745.
22.Azuma, N., Tadokoro, K., Asaka, A., Yamada, M., Yamaguchi, Y., Handa, H., Matsushima, S., Watanabe, T., Kida, Y., Ogura, T., Torii, M., Shimamura, K., Nakafuku, M. (2005) Transdifferentiation of the retinal pigment epithelia to the neural retina by transfer of the Pax6 transcriptional factor.
Human Mol. Genet. 14, 1059-1068.
23.Vieira, C., Garda, A.-L., Shimamura, K., Martinez, S. (2005) Thalamic development induced by Shh in the chick embryo.
Dev. Biol. 284, 351-363.
24.Kageyama, R., Ohtsuka, T., Hatakeyama, J., Ohsawa, R. (2005) Roles of bHLH genes in neural stem cell differentiation.
Experimental Cell Research 306. 343-348.
25.Hatakeyama, J., Sakamoto, S., Kageyama, R. (2006) Hes1 and Hes5 regulate development of the cranial and spinal nerve systems.
Developmental Neuroscience 2006 28(1-2), 92-101.
26.Baek, JH., Hatakeyama, J., Sakamoto, S., Ohtsuka, T., Kageyama, R. (2006) Persistent and high levels of Hes1 expression regulate boundary formation in the developing central nervous system.
Development 133, 2467-2476.
27.Hatakeyama, J., Kageyama, R. (2006) Notch1 expression is spatiotemporally correlated with neurogenesis and negatively regulated by Notch1-independent Hes genes in the developing nervous system.
Cerebral Cortex 1, i132-137.
28.Lebel. M., Mo, R., Shimamura, K., Hui, C.-C. (2007) Gli2 and Gli3 play distinct roles in the dorsoventral patterning of the mouse hindbrain.
Dev. Biol. 302, 345-355.
29.Hirata, H., Watanabe, T., Hatakeyama, J., Sprague, SM., Saint-Amant, L., Nagashima, A., Cui, WW., Zhou, W., and Kuwada, JY. (2007) Zebrafish relatively-relaxed mutants have a ryanodine receptor defect, show slow swimming and provide a model of multi-minicore disease.
Development 134(15), 2771-81.
30.Hatakeyama, J., Shimamura, K. (2008) Method for electroporation for the early chick embryo.
Develop. Growth Differ. 50, 449-452.
31.Katsumoto, K., Fukuda, K., Kimura, W., Shimamura, K., Yasugi, S., Kume, S. (2009) Origin of pancreatic precursors and the mechanism of endoderm regionalization in chick embryos.
Mech. Dev. 126, 539-551.
32.Hatakeyama, J., Shimamura, K. (2009) Method of electroporation for the early chick embryo.
In “Electroporation and Sonoporation in Developmental Biology”, 43-54, Springer. (Book chapter)
33.Kageyama, R., Ohtsuka, T., Ohsawa, R., Hatakeyama, J. (2009) Helix-loop-helix (bHLH) protein: Hes family.
Encyclopedia of Neuroscience. (L.R. Squire, Editor). Oxford: Academic Press. Vol. 4, 1057-1065 (Book chapter)
34.Ozono, K., Komiya, S., Shimamura, K., Ito, T., Nagafuchi, A. (2011). Defining the roles of alpha-catenin in cell adhesion and cytoskeleton organization: Isolation of F9 cells completely lacking cadherin-catenin complex.
Cell Struct. Funct. 36, 131-143.
35.Sato H., Fukutani Y., Yamamoto Y., Tatara E., Takemoto M., Shimamura K., Yamamoto N. (2012) Thalamus-derived molecules promote survival and dendritic growth of developing cortical neurons.
J Neurosci. 32(44):15388-402.
36.Nagahara, N., Nagano, M., Ito, T., Akimoto, T., Shimamura, K., Suzuki, H. (2013). Antioxidant enzyme, 3-mercaptopyruvate sulfurtransferase-knockout mice exhibit increased anxiety-like behaviors: a model for human mercaptolactate-cysteine disulfiduria.
Sci. Rep. 3, 1986.
37.Guiu, J., Shimizu, R., D’Altri, T., Fraser, S.T., Hatakeyama, J., Bresnick, E.H., Kageyama, R., Dzierzak, E., Yamamoto, M., Espinosa, L., Bigas, A. (2013) Hes repressors are essential regulators of hematopoietic stem cell development downstream of Notch signaling.
Journal of Experimental Medicine 210(1):71-84.
Development 141(8):1671-82.
Gen Comp Endocrinol. 205: 121-32
Development 141, 2075-2084.
In “Electroporation methods in Neuroscience”, Saito T, ed., Neuromethods 102, 115-125.
42. Ha, T., Moon, K.H., Dai, L., Hatakeyama, J., Yoon, K., Park, H-S., Kong, Y-Y., Shimamura, K., Kim, J.W. (2017). The retinal pigment epithelium is a Notch signaling niche in the mouse retina.
Cell Rep. 19, 351-363.
43.Hatakeyama, J.*, Sato, H.*, and Shimamura, K. (2017) Developing guinea pig brain as a model for cortical folding.
Development, Growth & Differentiation 59(4), 286-301.
*Equal contribution
https://www.imeg.kumamoto-u.ac.jp/np95/
44.Kameyama, H., Kudoh, S., Hatakeyama, J., Matuo, A., Ito, T. (2017) Significance of Stat3 Signaling in Epithelial Cell Differentiation of Fetal Mouse Lungs.
Acta Histochemca et Cytochemica 50(1):1-9.
Sci Rep. 7(1):6024.
46.Abe, S., Abe, K., Harada, T., Mizumoto, G., Oshikawa, H., Akiyama, H., Shimamura, K. (2017). Roles of CD34+ cells and ALK5 signaling in the reconstruction of seminiferous tuble-like structures in 3-D re-aggregate culture of dissociated cells from mouse testes.
PLoS One 12(11): e0188705.
Cerebral Cortex 29(9) 3725-3737
Communications Biology 2(1): 95
Biochemical and Biophysical Research Communications
524(1) 117-122
Medical Molecular Morphology 53(3) 168-176
Science Translational Medicine 13(587) 7896
Frontiers in Cell and Developmental Biology 9:632381
53.嶋村健児「前脳におけるパターン形成」
実験医学 18, 92-97, 2000.
54.橋本和枝「脳における神経核パターン形成のメカニズム」
脳の科学(Brain Science) 24, 715-721, 2002
55.嶋村健児、小林大介、橋本和枝「前脳における領域特異性形成」
実験医学 20, 59-65, 2002.
56.橋本和枝、嶋村健児 「幹細胞の領域特異的形質獲得機構」
Molecular Medicine 40: 280-286, 2003.
57.嶋村健児 「神経形態形成 Neural Morphogenesis」
遺伝学の百科事典 分担執筆 2020年 印刷中
58.畠山淳 「ヒトの高次機能を支える脳回脳溝の形成機序研究の現状」
Medical Science Digest 46(10) 658-661, 2020