Department of Life Science, College of Science, Rikkyo University、
〒171-8501 3-34-1 Nishi-Ikebukuro, Toshima-ku, Tokyo, Japan



Spätzle-processing enzyme-independent activation of the Toll pathway in Drosophila innate immunity.
Cell Struct. Funct, 41, 55-60 (2016)
Dynamic regulation of innate immune responses in Drosophila by Senju-mediated glycosylation.
YAMAMOTO-HINO,M., Muraoka,M., Kondo,S., Ueda,R., Okano,H. and GOTO,S.
Proc. Natl. Acad. Sci. USA, 112 (18), 5809-5814 (2015)
DOI: 10.1073/pnas.1424514112
Phenotype-based clustering of glycosylation-related genes by RNAi-mediated gene silencing.
YAMAMOTO-HINO,M., Yoshida,H., Ichimiya,T., Sakamura,S., Maeda,M., Kimura,Y., Sasaki,N., Aoki-Kinoshita,K.Y, Kinoshita-Toyoda,A., Toyoda,H., Ueda,R., Nishihara,S., and GOTO,S.
Genes Cells, 20 (6), 521-542 (2015)
DOI: 10.1111/gtc.12246
Cisterna-specific localization of glycosylation-related proteins to the Golgi apparatus.
YAMAMOTO-HINO,M., Abe,M., Shibano,T., Setoguchi,Y., Awano,W., Ueda.R., Okano,H. and GOTO,S.
Cell Struct. Funct., 37, 55-63(2012)
Identification of proteasome components required for apical localization of Chaoptin using functional genomics.
Yano,H., YAMAMOTO-HINO,M., Awano,W., Aoki-Kinoshita,K.F., Tsuda-Sakurai,K., Okano,H. and GOTO,S.
J. Neurogenet., 26, 53-63 (2012)
DOI: 10.3109/01677063.2012.661497
AP-1 clathrin adaptor and CG8538/Aftiphilin are involved in Notch signaling during eye development in Drosophila melanogaster. Kametaka,S., Kametaka,A.,Yonekura,S., Haruta,M., Takenoshita,S., GOTO,S. and Waguri,S.
J. Cell Sci.,125, 634-648 (2012)
DOI: 10.1242/jcs.090167
Multistage MS/MS information obtained by deconvolution of energy-resolved mass spectra acquired by triple-quadrupole mass spectrometry.
Kanie,O.,Kanie,Y., Daikoku,S., Shioiri,Y., Kurimoto,A., Mutsuga,S., GOTO,S., Ito,Y.and Suzuki,K.
Rapid Commun. Mass Spectrom., 25, 1617-1624 (2011)
DOI: 10.1002/rcm.5031
Fluorescence-monitored zero dead-volume nanoLC-microESI-QIT-TOF MS for analysis of fluorescently tagged glycosphingolipids. Daikoku,S., Ono,Y.,Ohtake,A., Hasegawa,Y., Fukusaki,E., Suzuki,K., Ito,Y., GOTO,S. and Kanie,O.
Analyst, 136, 1046-1050 (2011)
DOI: 10.1039/C0AN00715C
Identification of genes required for neural-specific glycosylation using functional genomics.
YAMAMOTO-HINO,M., Kanie,Y., Awano,W., Aoki-Kinoshita, K.F.,Yano,H., Nishihara,S., Okano,H., Ueda,R., Kanie,O. and GOTO,S.
PLoS Genetics, 6, e1001254 (2010)
DOI: 10.1371/journal.pgen.1001254
Balanced ubiquitylation and deubiquitylation of Frizzled regulate cellular responsiveness to Wingless/Wnt.
Mukai,A., YAMAMOTO-HINO,M., Awano,W., Watanabe,W., Komada,M. and GOTO,S.
The EMBO J., 29, 2114-2125 (2010)
DOI: 10.1038/emboj.2010.100
Autophagy-dependent rhodopsin degradation prevents retinal degeneration in Drosophila.
Midorikawa,R., YAMAMOTO-HINO,M., Awano,W., Hinohara,Y., Ueda,R. and GOTO,S.
J. Neurosci., 30, 10703-10719 (2010)
DOI: 10.1523/JNEUROSCI.2061-10.2010
Membrane protein location-dependent regulation by PI3K (III) and Rabenosyn-5 in Drosophila wing cells.
Abe,M., Setoguchi,Y., Tanaka,T., Awano,W., Takahashi,K., Ueda,R., Nakamura,A. and GOTO,S.
PLoS ONE, 4, e7306 (2009)
DOI: 10.1371/journal.pone.0007306
Spatial and temporal regulation of glycosylation during Drosophila eye development.
Cell. Tissue Res., 336, 137-147 (2009)
DOI: 10.1007/s00441-009-0753-6
Insight into the regulation of glycan synthesis in Drosophila chaoptin based on mass spectrometry.
Kanie,Y., YAMAMOTO-HINO,M., Karino,Y., Yokozawa,H., Nishihara,S., Ueda,R., GOTO,S. and Kanie,O.
PLoS ONE, 4, e5434 (2009)
N-Glycosylation of the Drosophila neural protein Chaoptin is essential for its Stability, Cell Surface Transport and Adhesive Activity.
Hirai-Fujita,Y., YAMAMOTO-HINO,M., Kanie,O. and GOTO,S.
FEBS Letters, 582, 2572-2576 (2008)
Sequential enzymatic glycosyltransfer reactions on a microfluidic device:Synthesis of a glycosaminoglycan linkage region tetrasaccharide. Ono,Y., Kitajima,M., Daikoku,S., Shiroya,T., Nishihara,S., Kanie,Y., Suzuki,K., GOTO,S. and Kanie,O.
Lab. Chip, 8, 2168-2173 (2008)
Comparative RP-HPLC for rapid identification of glycopeptides and application in off-line LC-MALDI-MS analysis.
Kanie,Y., Enomoto,A., GOTO,S. and Kanie,O.
Carbohydr. Res , 343, 758-768 (2008)
Distinct functional units of the Golgi complex in Drosophila cells.
Yano,H., YAMAMOTO-HINO,M., Abe,M., Kuwahara,R., Haraguchi,S., Kusaka,I., Awano,W., Kinoshita-Toyoda,A., Toyoda,H. and GOTO,S.
Proc. Natl. Acad. Sci. USA, 102, 13467-13472 (2005)
Approach for functional analysis of glycan using RNA interference.
Nishihara,S., Ueda,R., GOTO,S., Toyoda,H., Ishida,H. and Nakamura,M.
Glycoconj.J., 21, 63-68 (2004)
The role of Wg signaling in the patterning of embryonic leg primordium in Drosophila.
Kubota,K., GOTO,S. and Hayashi,S.
Dev. Biol., 257, 117-126(2003)
Molecular Cloning and Identification of 3′-Phosphoadenosine 5′-Phosphosulfate Transporter.
Kamiyama,S., Suda,T., Ueda,R., Suzuki,M., Okubo,R., Kikuchi,N., Chiba,Y., GOTO,S., Toyoda,H., Saigo,K., Watanabe,M., Narimatsu,H., Jigami,Y. and Nishihara,S.
J. Biol. Chem., 278, 25958-25963 (2003)
Distinct developmental modes and lesion-induced reactions of dendrites of two classes of Drosophila sensory neurons.
Sugimura,K., Yamamoto,M., Niwa,R., Sato,D.H., Yamaguchi,Y., GOTO,S., Taniguchi,M., Hayashi,S. and Uemura,T.
J. Neurosci., 23, 3752-3760 (2003)
GETDB, a database compiling expression patterns and molecular locations of a collection of Gal4 enhancer traps.
Hayashi,S., Ito,K., Sado,Y., Taniguchi,M., Akimoto,A., Takeuchi,H., Aigaki,T., Matsuzaki,F., Nakagoshi,H., Tanimura,T., Ueda,R., Uemura,T., Yoshihara,M. and GOTO,S.
Genesis, 34, 58-61 (2002)
UDP-sugar transporter implicated in glycosylation and processing of Notch.
GOTO,S., Taniguchi,M., Muraoka,M., Toyoda,H., Sado,Y., Kawakita,M. and Hayashi,S.
Nature Cell Biol., 3, 816-822 (2001)
EGF receptor attenuates Dpp signaling and helps to distinguish the wing and leg cell fates in Drosophila.
Kubota,K., GOTO,S., Eto,K. and Hayashi,S.
Development, 127, 3769-3776 (2000)
Proximal to distal cell communication in the Drosophila leg provides a basis for an intercalary mechanism of limb patterning.
GOTO,S. and Hayashi,S.
Development, 126, 3407-3413 (1999)
p38 mitogen-activated protein kinase can be involved in transforming growth factor-b superfamily signal transduction in Drosophila wing morphogenesis.
Adachi-Yamada,T., Nakamura,M., Irie,K., Sano,Y Tomoyasu,Y., Sano,Y., Mori,E., GOTO,S., Ueno,N., Nishida,Y. and Matsumoto,K.
Mol. Cell. Biol., 19, 2322-2329(1999)
Cell migration within the embryonic limb primordium of Drosophila revealed by a novel fluorescence method to visualized mRNA and protein.
GOTO,S. and Hayashi,S.
Dev. Genes Evol., 207, 194-198 (1997)
Specification of the embryonic limb primordium by graded activity of Decapentaplegic.
GOTO,S. and Hayashi,S.
Development, 124, 125-132 (1997)


Localization of glycosyl enzymes and nucleotide-sugar transporters in the endoplasmic reticulum and the Golgi apparatus.
In “Glycoscience: Biology and Medicine” Taniguchi, N. et al. ed. SpringerReference, Heidelberg (2014)
In vivo RNAi-based screens: studies in model organisms.
Genes, 4, 646-665 (2013)
DOI: 10.3390/genes4040646
Daocharad Burana、後藤聡、駒田雅之
細胞工学 特集 「Wnt協奏曲」 32, 396-400 (2013)
Structure, Function and Formation of Glycans in Drosophila.
YAMAMOTO-HINO,M., Okano,H., Kanie,O. and GOTO,S.
In “Glycans: Biochemistry, Characterization and Applications.” pp.165-188 Mora Montes, H. M. ed. Nova Science publishers, Inc., NY (2012)
Balanced ubiquitination determines cellular responsiveness to extracellular stimuli.
Mukai,A., YAMAMOTO-HINO,M., Komada.M., Okano,H. and GOTO,S.
Cellular and Molecular Life Sciences, 69, 4007-4016 (2012)
DOI: 10.1007/s00018-012-1084-4
細胞工学 29, 1237-1243 (2010)
蛋白質核酸酵素 53, 2193-2199 (2008)
蛋白質核酸酵素 53, 1475-1479 (2008)
Regulation of glycosylation by Golgi units.
Trends in Glycoscience and Glycotechnology, 18, 377-382 (2006)
実験医学 21, 136-141 (2003)
実験医学 17, 306-312 (1999)
実験医学 16, 523-527 (1998)
Dpp, Wgによるショウジョウバエの翅・肢誘導と近遠軸形成
実験医学 15, 342-349 (1997)