publication

paper
2022
Inaki M, Vishnu S, Matsuno K
Live imaging of delamination in Drosophila shows epithelial cell motility and invasiveness are independently regulated
scientific reports 2022 Sep 22. doi: https://doi.org/10.1038/s41598-022-20492-1
Lai YT, Sasamura T, Kuroda J, Maeda R, Nakamura M, Hatori R, Ishibashi T, Taniguchi K, Ooike M, Taguchi T, Nakazawa N, Hozumi S, Okumura T, Aigaki T, Inaki M, Matsuno K.
The Drosophila AWP1 ortholog Doctor No regulates JAK/STAT signaling for left-right asymmetry in the gut by promoting receptor endocytosis
bioRxiv 2022 Aug 20. doi: https://doi.org/10.1101/2022.08.20.504629
Ishibashi T, Matsuno K.
extra macrochaetae, encoding Drosophila Id, controls apical cell shape in the hindgut epithelium
microPublication Biology 2022 Mar 18. doi: 10.17912/micropub.biology.000526.
2021
Shin D, Nakamura M, Morishita Y, Eiraku M, Yamakawa T, Sasamura T, Akiyama M, Inaki M, Matsuno K.
Collective nuclear behavior shapes bilateral nuclear symmetry for subsequent left-right asymmetric morphogenesis in Drosophila
Development 2021 Apr 29. doi: 10.1242/dev.198507
2020
Ishibashi T, Inaki M, Matsuno K.
Statistical Validation Verifies That Enantiomorphic States of Chiral Cells Are Determinant Dictating the Left- or Right-Handed Direction of the Hindgut Rotation in Drosophila.
Symmetry 2020 Dec 2. doi: 10.3390/sym12121991.
2019
Das P, Salazar JL, Li‐Kroeger D, Yamamoto S, Nakamura M, Sasamura T, Inaki M, Masuda W, Kitagawa M, Yamakawa T, Matsuno K.
Maternal almondex, a neurogenic gene, is required for proper subcellular Notch distribution in early Drosophila embryogenesis.
Dev Growth Differ 2019 Nov 28. doi:10.1111/dgd.12639.
Ishibashi T, Hatori R, Maeda R, Nakamura M, Taguchi T, Matsuyama Y, Matsuno K.
E and ID proteins regulate cell chirality and left-right asymmetric development in Drosophila.
Genes Cells 2019 Jan 9. doi: 10.1111/gtc.12669.
Inatomi M, Shin D, Lai YT, Matsuno K.
Proper direction of male genitalia is prerequisite for copulation in Drosophila, implying cooperative evolution between genitalia rotation and mating behavior.
Sci. Rep. 2019 Jan 18;9(1):210. doi: 10.1038/s41598-018-36301-7.
2018
Yamakawa T, Atsumi Y, Kubo S, Yamagishi A, Morita I, Matsuno K.
Insight into Notch Signaling Steps That Involve pecanex from Dominant-Modifier Screens in Drosophila.
Genetics 2018 May 31. pii: genetics.300935.2018.
Inaki M, Hatori R, Nakazawa N, Okumura T, Ishibashi T, Kikuta J, Ishii M, Matsuno K, Honda H.
Chiral cell sliding drives left-right asymmetric organ twisting
eLife 2018 Jun 12. pii: e32506.
2016
Matsumoto K, Ayukawa T, Ishio A, Sasamura T, Yamakawa T, Matsuno K.
Dual roles of O-glucose glycans redundant with monosaccharide O-fucose on Notch in Notch trafficking.
J Biol Chem. 2016 Apr 25. pii: jbc.M115.710483.
2015
Okumura T, Sasamura T, Inatomi M, Hozumi S, Nakamura M, Hatori R, Taniguchi K, Nakazawa N, Suzuki E, Maeda R, Yamakawa T, Matsuno K.
Class I myosins have overlapping and specialized functions in left-right asymmetric development in Drosophila.
Genetics. 2015 Apr;199(4):1183-99.
Ishio A, Sasamura T, Ayukawa T, Kuroda J, Ishikawa HO, Aoyama N, Matsumoto K, Gushiken T, Okajima T, Yamakawa T, Matsuno K.
O-fucose monosaccharide of Drosophila Notch has a temperature-sensitive function and cooperates with O-glucose glycan in Notch transport and Notch signaling activation.
J Biol Chem. 2015 Jan 2;290(1):505-19.
2014
Sawamura K, Maehara K, Keira Y, Ishikawa HO, Sasamura T, Yamakawa T, Matsuno K.
A test of double interspecific introgression of nucleoporin genes in Drosophila.
G3 (Bethesda). 2014 Aug 28;4(11):2101-6.
Hatori R, Ando T, Sasamura T, Nakazawa N, Nakamura M, Taniguchi K, Hozumi S, Kikuta J, Ishii M, Matsuno K.
Left-right asymmetry is formed in individual cells by intrinsic cell chirality.
Mech Dev. 2014 Aug;133:146-62.
Nakayama M, Ishibashi T, Ishikawa HO, Sato H, Usui T, Okuda T, Yashiro H, Ishikawa H, Taikou Y, Minami A, Kato K, Taki M, Aigaki T, Gunji W, Ohtsu M, Murakami Y, Tanuma S, Tsuboi A, Adachi M, Kuroda J, Sasamura T, Yamakawa T, Matsuno K.
A gain-of-function screen to identify genes that reduce lifespan in the adult of Drosophila melanogaster
BMC Genetics 2014 Apr;15:46.

2013
Sasamura T, Matsuno K, and Fortini ME.
Disruption of Drosophila melanogaster lipid metabolism genes causes tissue overgrowth associated with altered developmental signaling.
PLoS Genet. 2013 Nov;9(11):e1003917.
Setiamarga DH, Shimizu K, Kuroda J, Inamura K, Sato K, Isowa Y, Ishikawa M, Maeda R, Nakano T, Yamakawa T, Hatori R, Ishio A, Kaneko K, Matsumoto K, Sarashina I, Teruya S, Zhao R, Satoh N, Sasaki T, Matsuno K, Endo K.
An in-silico genomic survey to annotate genes coding for early development-relevant signaling molecules in the pearl oyster, Pinctada fucata.
Zoolog Sci. 2013 Oct;30(10):877-88.
Aoyama N, Yamakawa T, Sasamura T, Yoshida Y, Ohori M, Okubo H, Iida E, Sasaki N, Ueda R, and Matsuno K.
Loss- and gain-of-function analyses of vacuolar protein sorting 2 in Notch signaling of Drosophila melanogaster.
Genes Genet. Syst. 2013;88(1):45-57.

2012
Nakamura M, Matsumoto K, Iwamoto Y, Muguruma T, Nakazawa N, Hatori R, Taniguchi K, Maeda R, and Matsuno K.
Reduced cell number in the hindgut epithelium disrupts hindgut left-right asymmetry in a mutant of pebble, encoding a RhoGEF, in Drosophila embryos.
Mech Dev. 2012 Oct 4. pii: S0925-4773(12)00092-5.
Ayukawa T, Matsumoto K, Ishikawa HO, Ishio A, Yamakawa T, Aoyama N, Suzuki T, and Matsuno K.
Rescue of Notch signaling in cells incapable of GDP-L-fucose synthesis by gap junction transfer of GDP-L-fucose in Drosophila.
Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15318-23. Epub 2012 Sep 4.
Maehara K, Murata T, Aoyama N, Matsuno K, Sawamura K
Genetic dissection of Nucleoporin 160 (Nup160), a gene involved in multiple phenotypes of reproductive isolation in Drosophila.
Genes Genet Syst. 2012;87(2):99-106.
Nakazawa N, Taniguchi K, Okumura T, Maeda R, and Matsuno K
A novel Cre/loxP system for mosaic gene expression in the Drosophila embryo.
Dev Dyn. 2012 May;241(5):965-74.
Kuroda J, Nakamura M, Yoshida M, Yamamoto H, Maeda T, Taniguchi K, Nakazawa N, Hatori R,
Ishio A, Ozaki A, Shimaoka S, Ito T, Iida H, Okumura T, Maeda R and Matsuno K
Canonical Wnt signaling in the visceral muscle is required for left-right asymmetric development of the Drosophila midgut.
Mech Dev. 2012 Jan-Feb;128(11-12):625-39.
Yamakawa T, Yamada K, Sasamura T, Nakazawa N, Kanai M, Suzuki E, Fortini ME, Matsuno K
Deficient Notch signaling associated with neurogenic pecanex is compensated for by the unfolded protein response in Drosophila.
Development. 2012 Feb;139(3):558-67.

2011
Taniguchi K*, Maeda R*, Ando T, Okumura T, Nakazawa N, Hatori R, Nakamura M, Hozumi S, Fujiwara H, Matsuno K *Equal contribution
Chirality in planar cell shape contributes to left-right asymmetric epithelial morphogenesis.
Science. 2011 Jul 15;333(6040):339-41.
Nakayama M, Sato H, Okuda T, Fujisawa N, Kono N, Arai H, Suzuki E, Umeda M,
Ishikawa H O and Matsuno K
Drosophila carrying Pex3 or Pex16 mutations are models of Zellweger syndrome that reflect its symptoms associated with the absence of peroxisomes.
PLoS One. 2011 Aug ; 6(8) : e22984
Yamada K, Fuwa TJ, Ayukawa T, Tanaka T, Nakamura A, Wilkin MB,
Baron M, Matsuno K
Roles of Drosophila Deltex in Notch receptor endocytic trafficking and activation.
Genes cells. 2011 Mar ; 16(3) : 261-72
Sawamura K, Maehara K, Mashino S, Kagesawa T, Kajiwara M, Matsuno K, Takahashi A, Takano-Shimizu T.
Introgression of Drosophila simulans nuclear pore protein 160 in Drosophila melanogaster alone does not cause inviability but does cause female sterility.
Genetics. 2010 Oct ; 186(2) : 669-76

2010
Okumura T, Fujiwara H, Taniguchi K, Kuroda J, Nakazawa N, Nakamura M, Hatori R,
Ishio A, Maeda R, Matsuno K.
Left-right asymmetric morphogenesis of the anterior midgut depends on the activation of a non-muscle myosin II in Drosophila.
Dev Biol. 2010 Aug 15 ; 344(2) : 693-706.
Ishikawa HO*, Ayukawa T*, Nakayama M, Higashi S, Kamiyama S, Nishihara S, Aoki K, Ishida N, Sanai Y, Matsuno K. *Equal contribution
Two pathways for importing GDP-fucose into the endoplasmic reticulum lumen function redundantly in the O-fucosylation of Notch in Drosophila.
J Biol Chem. 2010 Feb 5;285(6):4122-9.

2008
Okumura T, Utsuno H, Kuroda J, Gittenberger E, Asami T, Matsuno K.
The development and evolution of left-right asymmetry in invertebrates: lessons from Drosophila and snails.
 Dev Dyn. 2008 Dec;237(12):3497-515. Review.
Hozumi S, Maeda R, Taniguchi-Kanai M, Okumura T, Taniguchi K, Kawakatsu Y, Nakazawa N, Hatori R, Matsuno K.
Head region of unconventional myosin I family members is responsible for the organ-specificity of their roles in left-right polarity in Drosophila.
Dev Dyn. 2008 Dec;237(12):3528-37.
Wilkin M, Tongngok P, Gensch N, Clemence S, Motoki M, Yamada K, Hori K, Taniguchi-Kanai M, Franklin E, Matsuno K, Baron M.
Drosophila HOPS and AP-3 complex genes are required for a Deltex-regulated activation of notch in the endosomal trafficking pathway.
Dev Cell. 2008 Nov;15(5):762-72.
Kagesawa T, Nakamura Y, Nishikawa M, Akiyama Y, Kajiwara M, Matsuno K.
Distinct activation patterns of EGF receptor signaling in the homoplastic evolution of eggshell morphology in genus Drosophila.
Mech Dev. 2008 Nov-Dec;125(11-12):1020-32.

2007
Taniguchi K, Hozumi S, Maeda R, Okumura T, Matsuno K.
Roles of type I myosins in Drosophila handedness.
Fly (Austin). 2007 Sep-Oct;1(5):287-90.
Taniguchi K, Hozumi S, Maeda R, Ooike M, Sasamura T, Aigaki T, Matsuno K.
D-JNK signaling in visceral muscle cells controls the laterality of the Drosophila gut.
Dev Biol. 2007 Nov 1;311(1):251-63.
Oyama T, Harigaya K, Muradil A, Hozumi K, Habu S, Oguro H, Iwama A, Matsuno K, Sakamoto R, Sato M, Yoshida N, Kitagawa M.
Mastermind-1 is required for Notch signal-dependent steps in lymphocyte development in vivo.
Proc Natl Acad Sci U S A. 2007 Jun 5;104(23):9764-9.
Nakamura Y, Kagesawa T, Nishikawa M, Hayashi Y, Kobayashi S, Niimi T, Matsuno K.
Soma-dependent modulations contribute to divergence of rhomboid expression during evolution of Drosophila eggshell morphology.
Development. 2007 Apr;134(8):1529-37.
Sasamura T, Ishikawa HO, Sasaki N, Higashi S, Kanai M, Nakao S, Ayukawa T, Aigaki T, Noda K, Miyoshi E, Taniguchi N, Matsuno K.
The O-fucosyltransferase O-fut1 is an extracellular component that is essential for the constitutive endocytic trafficking of Notch in Drosophila.
Development. 2007 Apr;134(7):1347-56.
Araki Y, Kawano T, Taru H, Saito Y, Wada S, Miyamoto K, Kobayashi H, Ishikawa HO, Ohsugi Y, Yamamoto T, Matsuno K, Kinjo M, Suzuki T.
The novel cargo Alcadein induces vesicle association of kinesin-1 motor components and activates axonal transport.
EMBO J. 2007 Mar 21;26(6):1475-86.
Maeda R, Hozumi S, Taniguchi K, Sasamura T, Murakami R, Matsuno K.
Roles of single-minded in the left-right asymmetric development of the Drosophila embryonic gut.
Mech Dev. 2007 Mar;124(3):204-17.<
Sasaki N, Sasamura T, Ishikawa HO, Kanai M, Ueda R, Saigo K, Matsuno K.
Polarized exocytosis and transcytosis of Notch during its apical localization in Drosophila epithelial cells.
Genes Cells. 2007 Jan;12(1):89-103.

2006
Hozumi S, Maeda R, Taniguchi K, Kanai M, Shirakabe S, Sasamura T, Speder P, Noselli S, Aigaki T, Murakami R, Matsuno K.
An unconventional myosin in Drosophila reverses the default handedness in visceral organs.
Nature. 2006 Apr 6;440(7085):798-802.
Fuwa TJ, Hori K, Sasamura T, Higgs J, Baron M, Matsuno K.
The first deltex null mutant indicates tissue-specific deltex-dependent Notch signaling in Drosophila.
Mol Genet Genomics. 2006 Mar;275(3):251-63.

2005
Ishikawa HO, Higashi S, Ayukawa T, Sasamura T, Kitagawa M, Harigaya K, Aoki K, Ishida N, Sanai Y, Matsuno K.
Notch deficiency implicated in the pathogenesis of congenital disorder of glycosylation IIc.
Proc Natl Acad Sci U S A. 2005 Dec 20;102(51):18532-7.
Hori K, Fuwa TJ, Seki T, Matsuno K.
Genetic regions that interact with loss- and gain-of-function phenotypes of deltex implicate novel genes in Drosophila Notch signaling.
Mol Genet Genomics. 2005 Feb;272(6):627-38.

2004
Sakata T, Sakaguchi H, Tsuda L, Higashitani A, Aigaki T, Matsuno K, Hayashi S.
Drosophila Nedd4 regulates endocytosis of notch and suppresses its ligand-independent activation.
Curr Biol. 2004 Dec 29;14(24):2228-36.
Hori K, Fostier M, Ito M, Fuwa TJ, Go MJ, Okano H, Baron M, Matsuno K.
Drosophila Deltex mediates Suppressor of Hairless-independent and late-endosomal activation of Notch signaling.
Development. 2004 Nov;131(22):5527-37.

2003
Watanabe N, Tezuka Y, Matsuno K, Miyatani S, Morimura N, Yasuda M, Fujimaki R, Kuroda K, Hiraki Y, Hozumi N, Tezuka K.
Suppression of differentiation and proliferation of early chondrogenic cells by Notch.
J Bone Miner Metab. 2003;21(6):344-52.
Nakamura Y, Matsuno K.
Species-specific activation of EGF receptor signaling underlies evolutionary diversity in the dorsal appendage number of the genus Drosophila eggshells.
Mech Dev. 2003 Aug;120(8):897-907.
Sasamura T, Sasaki N, Miyashita F, Nakao S, Ishikawa HO, Ito M, Kitagawa M, Harigaya K, Spana E, Bilder D, Perrimon N, Matsuno K.
neurotic, a novel maternal neurogenic gene, encodes an O-fucosyltransferase that is essential for Notch-Delta interactions.
Development. 2003 Oct;130(20):4785-95.

2002
Takashima S, Yoshimori H, Yamasaki N, Matsuno K, Murakami R.
Cell-fate choice and boundary formation by combined action of Notch and engrailed in the Drosophila hindgut.
Dev Genes Evol. 2002 Dec;212(11):534-41.
Hase M, Yagi Y, Taru H, Tomita S, Sumioka A, Hori K, Miyamoto K, Sasamura T, Nakamura M, Matsuno K, Suzuki T.
Expression and characterization of the Drosophila X11-like/Mint protein during neural development.
J Neurochem. 2002 Jun;81(6):1223-32.
Matsuno K, Ito M, Hori K, Miyashita F, Suzuki S, Kishi N, Artavanis-Tsakonas S, Okano H.
Involvement of a proline-rich motif and RING-H2 finger of Deltex in the regulation of Notch signaling.
Development. 2002 Feb;129(4):1049-59.

2001
Yamamoto, N., Yamamoto, Si, S., Inagaki, F., Kawaichi, M., Fukamizu, A., Kishi, N., Matsuno, K., Nakamura, K., Weinmaster, G., Okano, H., Nakafuku, M.
Role of Deltex-1 as a transcriptional regulator downstream of the Notch receptor.
J Biol Chem. 2001 Nov 30;276(48):45031-40. Epub 2001 Sep 19.
Kitagawa, M., Oyama, T., Kawashima, T., Yedvobnick, B., Kumar, A., Matsuno, K. and Harigaya, K.
A human protein with sequence similarity to Drosophila mastermind coordinates the nuclear form of notch and a CSL protein to build a transcriptional activator complex on target promoters.
Mol Cell Biol. 2001 Jul;21(13):4337-46.
Kishi, N., Tang, Z., Maeda, Y., Hirai, A., Mo, R., Ito, M., Suzuki, S., Nakao, K., Kinoshita, T., Kadesch, T., Hui, C.-c., Artavanis-Tsakonas, S., Okano, H. and Matsuno, K.
Murine homologs of deltex define a novel gene family involved in vertebrate Notch signaling and neurogenesis.
Int J Dev Neurosci. 2001 Feb;19(1):21-35.

1999
Kanuka, H., Sawamoto, K., Inohara, N., Matsuno, K., Okano, H., and Miura, M.
Control of the cell death pathway by Dapaf-1, a Drosophila Apaf-1/CED-4-Related Caspase Activator.
Mol Cell. 1999 Nov;4(5):757-69.

1998
Matsuno, K., Eastman, D.S., Quinn, A.M., Ordentlich, P., Kadesch, T., and Artavanis-Tsakonas, S.
Human Deltex is a conserved regulator of Notch signaling.
Nature Genet. 1998, 19:74-78
Matsuno, K., Ito, M., Kishi, N., Suzuki, S., Artavanis-Tsakonas, S. and Okano, H
Physical and functional links between Deltex and Notch receptor in Drosophila melanogaster.
Frontiers of Neural development. Springer Verlag, Tokyo 1998, 42-49
Ordentlich, P., Lin, A., Shen, C. -P., Blaumueller, C., Matsuno, K., Artavanis-Tsakonas, S., and Kadesch, T.
Notch inhibition of E47 supports the existance of a novel signaling pathway.
Mol Cell Biol. 1998 Apr;18(4):2230-9.

1997
Matsuno, K., Go, M.J., Sun, X., Eastman, D.S., and Artavanis-Tsakonas, S.
Suppressor of Hairless-independent events in Notch signaling imply novel pathway elements.
Development. 1997 Nov;124(21):4265-73.

1996
Axelrod, J.D., Matsuno, K., Artavanis-Tsakonas, S., and Perrimon, N.
Interaction between Wingless and Notch signaling pathways mediated by Dishevelled.
Science. 1996 Mar 29;271(5257):1826-32.

1995
Artavanis-Tsakonas, S., Matsuno, K., and Fortini. M.,
Notch Signaling.
Science. 1995 Apr 14;268(5208):225-32.
Matsuno, K., Diederich, R.J., Go, M.J., Blaumueller, C.M., and Artavanis-Tsakonas, S.
Deltex acts as a positive regulator of Notch signaling through interactions with the Notch ankyrin repeats.
Development. 1995 Aug;121(8):2633-44.

1994
Diederich, R. J., Matsuno, K., Hing, H., and Artavanis-Tsakonas, S.
Cytosolic interaction between deltex and Notch ankyrin repeats implicates deltex in the Notch signaling.
Development. 1994 Mar;120(3):473-81.
Review
Utsunomiya S, Sakamura S, Sasamura T, Ishibashi T, Maeda C, Inaki M, Matsuno K.
Cells with Broken Left–Right Symmetry: Roles of Intrinsic Cell Chirality in Left–Right Asymmetric Epithelial Morphogenesis.
Symmetry 2019 Apr 8. https://doi.org/10.3390/sym11040505
Yi-Ting Lai, Chinami Maeda, Kenji Matusno.
"Drosophila flies high over the Asia-Pacific: Report on the Fourth Asia-Pacific Drosophila Research Conference."
Genes Cells. 2018 Jun 14.
Mikiko Inaki, Takeshi Sasamura, Kenji Matsuno.
"Cell Chirality Drives Left-Right Asymmetric Morphogenesis."
Front Cell Dev Biol. 2018 Apr 3;6:34.
Mikiko Inaki, Jingyang Liu, Kenji Matsuno
"Cell chirality: its origin and roles in left–right asymmetric development"
Philos Trans R Soc Lond B Biol Sci. 2016 Dec 19;371(1710).
山川智子, 松本顕治郎, 松野健治
"暁のNotchシグナル-無脊椎モデル動物の役割の過去と未来"
実験医学 羊土社 34 (3), 390-396 (2015).
羽鳥僚, 松野健治
"ねじれる‐細胞のキラリティの普遍性と機能"
実験医学 羊土社 33 (3), 423-428 (2015).
羽鳥僚, 松野健治
"細胞のキラリティが誘発する組織のねじれ"
日本数理生物学会ニュースレター 日本数理生物学会 73, 20-21 (2014).
黒田純平,中村充利,松野健治
“生物のからだはどのように左右非対称になるのか?~ショウジョウバエを用いてその仕組みを探る~”
生産と技術 生産技術振興協会 第65巻 第3号 99-102 (2013).
Aoyama N, Yamakawa T, and Matsuno K.
Clonal analysis of Notch O-fucosylation in Drosophila melanogaster.
GlycoScience Protocol Online Database (2013).
中山 実,松野健治
“Zellweger症候群のショウジョウバエモデルが明らかにするペルオキシソームの新たな役割”
生体の科学 医学書院 63 (5), 464-467 (2012).
松野健治
“個々の細胞の形の左右の歪みが合さって臓器の形を左右非対称に変える”
科研費NEWS 2012 vol.2 (2012).
Yamakawa T, Ayukawa T, Matsuno K.
Metabolism and transportation pathways of GDP-fucose that are required for the O-fucosylation of Notch.
 Adv Exp Med Biol. 2012, 727:37-46. Review.
中澤直高,前田礼男,谷口喜一郎,安藤格士,松野健治
“上皮細胞の平面内細胞形状のキラリティによる左右非対称な組織形態形成の新たな機構”
実験医学 30 (1), 75-78 (2012).
前田礼男,谷口喜一郎,安藤格士,松野健治
“細胞のキラルな形状が上皮組織の左右非対称な形態変化を誘発する”
細胞工学 30 (12), 1298-1230 (2011).
前田礼男,谷口喜一郎,安藤格士,松野健治
“キラルな細胞形状の変化による左右非対称な形態形成”
FIRST AUTHORSライフサイエンス 新着論文レビュー 2011年8月15日
山田健太,山川智子,Martin Baron,松野健治
“「Notch受容体活性化の場としてのリソソーム様小器官”
実験医学 27 (8), 1251-1254 (2009).
松野健治
“動物のからだが左右非対称になるしくみ”
サイエンスネット,数研出版 第34号 (2008).
奥村高志,川勝康弘,谷口喜一郎,松野健治
“ショウジョウバエにおける左右非対称性形成の遺伝的機構”
細胞工学 27(6), 553-557 (2008).
前田礼男,穂積俊矢, 谷口喜一郎, 奥村高志, 松野健治
“ショウジョウバエにおける左右非対称性形成の遺伝学的解析”
生化学 6 (12), 1131-1134 (2007).
穂積俊矢, 前田礼男, 谷口喜一郎, 松野健治
“無脊椎動物における左右非対称性の形成機構”
蛋白質核酸酵素 52 (3), 227-235 (2007).
中越英樹, 松野健治
“ショウジョウバエの消化管形成と機能分化”
蛋白質核酸酵素 52 (2), 119-125 (2007).
Nakagoshi H, Matsuno K.

[Drosophila gut development: cell fate determination and functional specification]
Tanpakushitsu Kakusan Koso. 2007 Feb;52(2):119-25. Review. Japanese.
谷口喜一郎, 穂積俊矢, 前田礼男, 松野健治
“ミオシンIファミリーによるショウジョウバエの左右性の制御機構”
LABIO21 27, 22-26 (2007).
Taniguchi K, Hozumi S, Maeda R, Okumura T, Matsuno K.
Roles of type I myosins in Drosophila handedness.
Fly (Austin). 2007 Sep-Oct;1(5):287-90.
穂積俊矢, 前田礼男, 谷口喜一郎, 松野健治
“非定型ミオシンIはショウジョウバエ内臓のデフォルトの左右非対称性を逆転させている”
細胞工学 25(6), 642-643 (2006).
前田礼男, 穂積俊矢, 谷口喜一郎, 松野健治
“非定型ミオシンによるショウジョウバエの左右非対称性形成”
Bionics (10), 70-71 (2006).
石川裕之, 松野健治
“Notchのフコース修飾とその機能”
Functional Glycomics, 58-65 (2006).
石川裕之, 笹村剛司, 鮎川友紀, 松野健治
“糖鎖シグナル 3)Notchシグナル伝達系におけるO-フコシル化の機能”
遺伝子医学MOOK 3号「糖鎖と病気」 第一章, 4.糖鎖シグナル, 144-149 (2005).
笹村剛司, 石川裕之, 堀一也, 松野健治
“Notch情報伝達における糖鎖修飾の機能”
Molecular Medicine 40, 1046-1055 (2003).
鈴木聡, 松野健治
“Notchレセプター細胞内ドメインにおけるタンパク質相互作用とその機能-Notch情報伝達におけるクロストークの検証-“
実験医学 18, 41-49 (2000).
松野健治
“Notch情報伝達の分子機構とその機構”
蛋白質核酸酵素 44, 19-31 (1999).
松野健治
“Notch情報伝達系を制御する細胞質因子Deltex”
細胞工学 17, 782-791 (1998).
松野健治
“バージェス頁岩の中の発生学”
細胞工学 16, 1492-1493 (1997).
松野健治
“細胞間相互作用から転写制御まで-Notch情報伝達系による神経細胞分化の制御-”
転写因子研究の最前線‘97 実験医学 15, 134-143 (1997).
松野健治
“NotchシグナリングとWinglessシグナリング”
実験医学 15, 91-94 (1997)
Artavanis-Tsakonas, S., Matsuno, K., and Fortini. M.,
Notch Signaling.
Science 1995, 268:225-232
福田雅一, 松野健治, 瀧谷重治, 鈴木義昭
“絹糸腺特異的なセリシン遺伝子の転写制御”
実験医学 9, 19-25 (1991).
Suzuki, Y., Takiya, S., Suzuki, T., Hui, C.-C., Matsuno, K., Fukuta, M., Xu, P.-X., Nagata, T., Lou, Y.-H., Ohno, K., Ueno, K.
Developmental regulation of the silk genes transcription.
In Gene Expression, The Second International Mochida Memorial Symposium pp. 85-100 (1990).
Books
松本顕治郎, 石尾彬, 松野健治
“細胞間情報伝達 Notch情報伝達”
糖鎖の新機能開発・応用ハンドブック エヌ・ティー・エス (2015).
Matsumoto, K., Ishio, A., and Matsuno, K.
O-fucose Glycan in Drosophila Notch Signaling.
Glycoscience: Biology and Medicine Springer Japan 1-7 (2014).
前田礼男, 松野健治
“ホメオティック遺伝子”
分子生物学辞典 みみづく舎 198-199 (2012).
Yamakawa, T., Ayukawa, T. and Matsuno K.
Metabolism and transportation pathways of GDP-fucose that are required for the O-fucosylation of Notch. In Notch Signaling in Embryology and Cancer (Reichrath, J. and Reichrath, S., eds.)
Landes Bioscience (2011).
Ayukawa, T. and Matsuno K.
Studies on functions of Notch O-fucosylation in Drosophila.
In Glycoscience Lab Manual, Springer Verlag, Tokyo 295-298 (2008).
松野健治
“ショウジョウバエNotch情報伝達におけるO-フコシル化の機能に関する研究”
糖鎖科学 金芳堂 330-332 (2005).
笹村剛司, 佐々木伸雄, 石川裕之, 松野健治
“Notch情報伝達系における糖鎖修飾の機能”
糖鎖科学の新展開 第二章, 第7節, 265-268 (2005).
松野健治
“ショウジョウバエ・ゲノムプロジェクトのビフォアーとアフター”
ポストゲノムの分子生物学 55-63 (2003).
Suzuki, Y., Takiya, S., Suzuki, T., Hui, C.-c., Matsuno, K., Fukuta, Nagata, T., M., and Ueno, K.
Developmental regulation of silk gene expression.
In Molecular Insect Science (Hagendorn, H.H., Hilderbrand, J.G., Kidwell, M.G., and Law, J.G., eds.) pp. 83-89, Plenum Press, New York (1990).
Matsuno, K., Ito, M., Kishi, N., Suzuki, S., Artavanis-Tsakonas, S., and Okano, H.
Physical and functional links between Deltex and Notch receptor in Drosophila melanogaster.
In Frontiers of Neural Development. Springer Verlag, Tokyo pp. 42-49 (1998).
松野健治、鈴木利治、Hui Chi-chung、鈴木義昭
“ゲルシフト法およびDNaseIフットプリント法”
最新動物細胞実験マニュアル pp. 340-349 Life-Science Information Center(1990).
鈴木義昭, 滝谷重治, 鈴木利治, Hui Chi-chung, 松野健治, 原和次郎, 永田俊文, 上野孝治
“細胞個性を躍動させる転写制御因子”
細胞社会とその形成 103-116 東京大学出版会 (1989).
鈴木利治, 松野健治, 鈴木義昭
“RNAポリメラーゼIIによる転写とその制御”
シリーズ分子生物学の進歩5 遺伝子の発現と制御II 21-40 丸善株式会社 (1989).
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