Publications
<2024>
Matsuka, M., Otsune, S., Sugimori, S., Tsugita, Y., Ueda, H., Nakagoshi, H.
Fecundity is optimized by levels of nutrient signal-dependent expression of Dve and EcR in Drosophila male accessory gland
Kitamata, M., Otake, Y., Kitagori, H., Zhang, X., Maki, Y., Boku, R., Takeuchi, M., Nakagoshi, H.
Functional opsin patterning for Drosophila color vision is established through signaling pathways in adjacent object-detection neurons
Puli, O.R., Gogia, N., Chimata, A.V., Yorimitsu, T., Nakagoshi, H., Kango-Singh, M., Singh, A.
Genetic mechanism regulating diversity in placement of eyes on the head of animals
Proc. Natl. Acad. Sci. USA 121, e2316244121 (2024) {PubMed}
<2019>
Matsuka, M. and Nakagoshi, H.
Nutrient conditions optimize male fecundity in Drosophila melanogaster.
In Advances in Medicine and Biology, edited by Leon V. Berhardt, Nova Science Publishers (2019) 141, pp.191-211 (chapter 6) [WEB]
<2018>
Kubo, A.*, Matsuka, M.*, Minami, R., Kimura, F., Sakata-Niitsu, R., Kokuryo, A., Taniguchi, K., Adachi-Yamada, T., and Nakagoshi, H.
Nutrient conditions sensed by the reproductive organ during development optimize male fecundity in Drosophila
Genes Cells 23, 557-567 (2018) (*equal contribution) [full text]
Taniguchi, K., Kokuryo, A., Imano, T., Nakagoshi, H., and Adachi-Yamada, T.
Binucleation of accessory gland lobe contributes to effective ejection of seminal fluid in Drosophila melanogaster
Zool. Sci. 35, 446-458 (2018) [PubMed]
<2016>
Sugimori, S., Hasegawa, A., and Nakagoshi, H.
Spalt-mediated dve repression is a critical regulatory motif and coordinates with Iroquois complex in Drosophila vein formation.
Mech. Dev. 141, 25-31 (2016) [PubMed]
<2014>
Taniguchi, K., Kokuryo, A., Imano, T., Minami, R., Nakagoshi, H., and Adachi-Yamada, T.
Isoform-specific functions of Mud/NuMA mediate binucleation of Drosophila male accessory gland cells
BMC Dev. Biol. 14, 46 (2014) [full text]
Kiritooshi, N.*, Yorimitsu, T.*, Shirai, T., Puli, O.R., Singh, A., and Nakagoshi, H.
A vertex specific dorsal selector Dve represses the ventral appendage identity in Drosophila head
Mech. Dev. 133, 54-63 (2014) (*equal contribution) [PubMed]
<2012>
Minami, R., Wakabayashi, M., Sugimori, S., Taniguchi, K., Kokuryo, A., Imano, T., Adachi-Yamada, T., Watanabe, N., and Nakagoshi, H.
The homeodomain protein Defective proventriculus is essential for male accessory gland development to enhance fecundity in Drosophila
PLoS ONE 7, e32302 (2012) [full text]
Taniguchi, K., Kokuryo, A., Imano, T., Minami, R., Nakagoshi, H., and Adachi-Yamada, T.
Binucleation of Drosophila adult male accessory gland cells increases plasticity of organ size for effective reproduction
Biol. Syst. 1, e101 (2012) [full text]
<2011>
Yorimitsu, T., Kiritooshi, N., and Nakagoshi, H.
Defective proventriculus specifies the ocellar region in the Drosophila head
Dev. Biol. 356, 598-607 (2011) [PubMed]
Umezaki, Y., Yasuyama, K., Nakagoshi, H., and Tomioka, K.
Blocking synaptic transmission with tetanus toxin light chain reveals modes of neurotransmission in the PDF-positive circadian clock neurons of Drosophila melanogaster
J. Insect Physiol. 57, 1290-1299 (2011)
Johnston, R.J. Jr.*, Otake, Y.*, Sood, P., Vogt, N., Behnia, R., Vasiliauskas, D., McDonald, E., Xie, B., Koenig, S., Wolf, R., Cook, T., Gebelein, B., Kussell, E., Nakagoshi, H.#, and Desplan, C.#
Interlocked feedforward loops control cell-type-specific Rhodopsin expression in the Drosophila eye
Cell 145, 956-968 (2011) [PubMed] (*equal contribution) (#corresponding authors)
Nakagawa, Y.*, Fujiwara-Fukuta, S.*, Yorimitsu, T., Tanaka, S., Minami, R., Shimooka, L., and Nakagoshi, H.
Spatial and temporal requirement of Defective proventriculus activity during Drosophila midgut development
Mech. Dev. 128, 258-267 (2011) [PubMed] (*equal contribution)
<2001-2010>
Shirai, T., Yorimitsu, T., Kiritooshi, N., Matsuzaki, F., and Nakagoshi, H.
Notch signaling relieve the joint-suppressive activity of Defective proventriculus in the Drosophila leg
Dev. Biol. 312, 147-156 (2007) [PubMed]
Tanaka, R.*, Takase, Y.*, Kanachi, M.*, Enomoto-Katayama, R., Shirai, T., and Nakagoshi, H.
Notch-, Wingless, and Dpp-mediated signaling pathways are required for functional specification of Drosophila midgut cells
Dev. Biol. 304, 53-61 (2007) [PubMed] (*equal contribution)
Nakagoshi, H.
Functional specification in the Drosophila endoderm
Dev. Growth Differ. 47, 383-392 (2005) [PubMed]
Shirai, T., Maehara, A., Kiritooshi, N., Matsuzaki, F., Handa, H., and Nakagoshi, H.
Differential requirement of EGFR signaling for the expression of defective proventriculus gene in the Drosophila endoderm and ectoderm
Biochem. Biophs. Res. Commun. 311, 473-477 (2003) [PubMed]
Nakagoshi, H., Shirai, T., Nabeshima, Y., and Matsuzaki, F.
Refinement of wingless expression by a Wingless- and Notch-responsive homeodomain protein, Defective proventriculus
Dev. Biol. 249, 44-56 (2002) [PubMed]
Takamatsu, Y., Nakagoshi, H., Rachidi, M., Lopes, C., Nishida, Y., and Ohsako, S.
Characterization of the dCaMKII-GAL4 driver line whose expression is controlled by the Drosophila Ca2+/calmodulin-dependent protein kinase II promoter
Cell Tissue Res. 310, 237-252 (2002)
Hayashi, S., Ito, K., Sado, Y., Taniguchi, M., Takeuchi, H., Aigaki, T., Matsuzaki, F., Nakagoshi, H., Tanimura, T., Ueda, R., Uemura, T., Yoshihara, M., and Goto, S.
GETDB, a database compiling expression patterns and molecular locations of a collection of Gal4 enhancer traps
Genesis 34, 58-61 (2002)
<1995-2000>
Nakagoshi, H., Hoshi, M., Nabeshima, Y., and Matsuzaki, F.
A novel homeobox gene mediates the Dpp signal to establish functional specificity within target cells
Genes Dev. 12, 2724-2734 (1998) [PubMed]
Sone, M., Hoshino, M., Suzuki, E., Kuroda, S., Kaibuchi, K., Nakagoshi, H., Saigo, K., Nabeshima, Y., and Hama, C.
Still life, a protein in synaptic terminals of Drosophila homologous to GDP-GTP exchangers
Science 275, 543-547 (1997)
Hirata, J., Nakagoshi, H., Nabeshima, Y., and Matsuzaki, F.
Asymmetric segregation of the homeodomain protein Prospero during Drosophila development
Nature 377, 627-630 (1995)
<ショウジョウバエの研究開始以前の発表論文>
1. Akira Akashi, Yukuo Yoshida, Hideki Nakagoshi, Kazuyuki Kuroki, Tadao Hashimoto, Kunio Tagawa, and Fumio Imamoto
Molecular cloning and expression of a gene for a factor which stabilizes formation of inhibitor-mitochondrial ATPase complex from Saccharomyces cerevisiae
J. Biochem. 104, 526-530 (1988)
2. Yukio Nishina, Hideki Nakagoshi, Fumio Imamoto, Thomas J. Gonda, and Shunsuke Ishii
Trans-activation by the c-myb proto-oncogene
Nucleic Acids Res. 17, 107-117 (1989)
3. Hideki Nakagoshi, Takahiro Nagase, Yoshio Ueno, and Shunsuke Ishii
Transcriptional trans-repression by the c-myb proto-oncogene product
Nucleic Acids Res. 17, 7315-7324 (1989)
4. Hiroshi Sakura, Chie Kanei-Ishii, Takahiro Nagase, Hideki Nakagoshi, Thomas J. Gonda, and Shunsuke Ishii
Delineation of three functional domains of the transcriptional activator encoded by the c-myb protooncogene
Proc. Natl. Acad. Sci. U.S.A. 86, 5758-5762 (1989)
5. Hideki Nakagoshi, Takahiro Nagase, Chie Kanei-Ishii, Yoshio Ueno, and Shunsuke Ishii
Binding of the c-myb proto-oncogene product to the simian virus 40 enhancer stimulates transcription
J. Biol. Chem. 265, 3479-3483 (1990)
6. Gaku Mizuguchi, Hideki Nakagoshi, Takahiro Nagase, Nobuo Nomura, Takayasu Date, Yoshio Ueno, and Shunsuke Ishii
DNA binding activity and transcriptional activator function of the human B-MYB protein compared with c-MYB
J. Biol. Chem. 265, 9280-9284 (1990)
7. Chie Kanei-Ishii, Akinori Sarai, Tetsuya Sawazaki, Hideki Nakagoshi, Dong-Ning He, Kazuhiro Ogata, Yoshifumi Nishimura, and Shunsuke Ishii
The Tryptophan cluster: A hypothetical structure of the DNA-binding domain of the myb proto-oncogene product
J. Biol. Chem. 265, 19990-19995 (1990)
8. Hideki Nakagoshi, Yoshio Ueno, and Fumio Imamoto
Effects of prokaryotic termination signals on RNA polymerase II transcription in HeLa cells
J. Biochem. 110, 159-162 (1991)
9. Hideki Nakagoshi, Chie Kanei-Ishii, Tetsuya Sawazaki, Gaku Mizuguchi, and Shunsuke Ishii
Transcriptional activation of the c-myc gene by the c-myb and B-myb gene products
Oncogene 7 (6), 1233-1240 (1992)
10. Nobuo Aoyama, Takahiro Nagase, Tetsuya Sawazaki, Gaku Mizuguchi, Hideki Nakagoshi, Jun-ichi Fujisawa, Mitsuaki Yoshida, and Shunsuke Ishii
Overlap of the p53 responsive element and cAMP-responsive element in the enhancer of human T-cell leukemia virus type-I
Proc. Natl. Acad. Sci. U.S.A. 89, 5403-5407 (1992)
11. Hideki Nakagoshi, Yoshihiro Takemoto, and Shunsuke Ishii
Functional domains of the human B-myb gene product
J. Biol. Chem. 268 (19), 14161-14167 (1993)
12. Yasuhide Furuta, Shinichi Aizawa, Yoko Suda, Yoji Ikawa, Hideki Nakagoshi, Yukio Nishina, and Shunsuke Ishii
Degeneration of skeletal and cardiac muscles in c-myb transgenic mice
Transgenic Res. 2, 199-207 (1993)
13. Tomomi Takahashi, Hideki Nakagoshi, Akinori Sarai, Nobuo Nomura, Tadashi Yamamoto, and Shunsuke Ishii
Human A-myb gene encodes a transcriptional activator containing the negative regulatory domains
FEBS letters 358 (1), 89-96 (1995)
14. Annette Hogg, Sabine Schirm, Hideki Nakagoshi, Paul Bartley, Shunsuke Ishii, J. Michael Bishop, and Thomas J. Gonda
Inactivation of a c-Myb/estrogen receptor fusion protein in transformed primary cells leads to granulocyte/macrophage differentiation and down regulation of c-kit but not c-myc or cdc2
Oncogene 15 (24), 2885-2898 (1997)
<和文総説>
1. 前川利男, 石井俊輔, 中越英樹, 鮎沢大, 今本文男
真核生物遺伝子の転写終結機構へのアプロ-チ -バクテリアと比較して-
蛋白質・核酸・酵素, 30, 1768-1781 (1985)
2. 中越英樹, 石井俊輔
転写制御因子と発がん
生体の科学, 41, 33-36 (1990)
3. 中越英樹, 石井俊輔
myb 遺伝子産物の機能
実験医学, 8, 809-816 (1990)
4. 中越英樹, 長瀬隆弘, 石井俊輔
c-myb 遺伝子産物の機能
日本臨牀, 48, 1649-1654 (1990)