発表論文 PUBLICATIONS(2014-2007)


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2014

  1. Mizushima S, Hiyama G, Shiba K, Inaba K, Dohra H, Ono T, Shimada K, Sasanami T. The birth of quail chicks after intracytoplasmic sperm injection. Development. 2014 Oct;141(19):3799-806. doi: 10.1242/dev.111765.
  2. Yaguchi S, Yaguchi J, Inaba K. bicaudal-C is required for the formation of anterior neurogenic ectoderm in the sea urchin embryo. Sci Rep. 2014 Oct 31;4:6852. doi: 10.1038/srep06852.
  3. Alavi SM, Postlerová-Maňásková P, Hatef A, Pšenička M, Pěknicová J, Inaba K, Ciereszko A, Linhart O. Protease in sturgeon sperm and the effects of protease inhibitors on sperm motility and velocity. Fish Physiol Biochem. 2014 Oct;40(5):1393-8. doi: 10.1007/s10695-014-9933-8.
  4. Sung CG, Kim TW, Park YG, Kang SG, Inaba K, Shiba K, Choi TS, Moon SD, Litvin S, Lee KT, Lee JS. Species and gamete-specific fertilization success of two sea urchins under near future levels of pCO2. Journal of Marine Systems. 2014 Sep;137: 67-73. doi:10.1016/j.jmarsys.2014.04.013
  5. Yokoe M, Sano M, Shibata H, Shibata D, Takayama-Watanabe E, Inaba K, Watanabe A. Sperm Proteases that May Be Involved in the Initiation of Sperm Motility in the Newt, Cynops pyrrhogaster. Int J Mol Sci. 2014 Aug 28;15(9):15210-24. doi: 10.3390/ijms150915210.
  6. Shiba K, Inaba K. Distinct roles of soluble and transmembrane adenylyl cyclases in the regulation of flagellar motility in ciona sperm. Int J Mol Sci. 2014 Jul 28;15(8):13192-208. doi: 10.3390/ijms150813192.
  7. Shiba K, Shibata D, Inaba K. Autonomous changes in the swimming direction of sperm in the gastropod Strombus luhuanus. J Exp Biol. 2014 Mar 15;217(Pt 6):986-96. doi: 10.1242/jeb.095398.
  8. Alavi SM, Matsumura N, Shiba K, Itoh N, Takahashi KG, Inaba K, Osada M. Roles of extracellular ions and pH in 5-HT-induced sperm motility in marine bivalve. Reproduction. 2014 Feb 3;147(3):331-45. doi: 10.1530/REP-13-0418. Print 2014 Mar.
  9. Inaba K, Mizuno K, Shiba K. Structure, Function, and Phylogenetic Consideration of Calaxin. Sexual Reproduction in Animals and Plants (ed. H. Sawada, N. Inoue, M. Iwano). Springer. 2014 Jan, pp 49-57.

 

2013

  1. Hirohashi N, Alvarez L, Shiba K, Fujiwara E, Iwata Y, Mohri T, Inaba K, Chiba K, Ochi H, Supuran CT, Kotzur N, Kakiuchi Y, Kaupp UB, Baba SA. Sperm from Sneaker Male Squids Exhibit Chemotactic Swarming to CO2. Curr Biol. 2013 May 6;23(9):775-81. doi: 10.1016/j.cub.2013.03.040.
  2. Jin Y, Yaguchi S, Shiba K, Yamada L, Yaguchi J, Shibata D, Sawada H, Inaba K. Glutathione transferase theta in apical ciliary tuft regulates mechanical reception and swimming behavior of Sea Urchin Embryos. Cytoskeleton 2013 Aug 1;70:453–470. doi: 10.1002/cm.21127.
  3. Takahashi T, Kutsuzawa M, Shiba K, Takayama-Watanabe E, Inaba K, Watanabe A. Distinct Ca2+ channels maintain a high motility state of the sperm that may be needed for penetration of egg jelly of the newt, Cynops pyrrhogaster. Dev Growth Differ. 2013 Sep;55(7):657-67. doi: 10.1111/dgd.12073. Epub 2013 Aug 25.
  4. Hiyama G, Matsuzaki M, Mizushima S, Dohra H, Ikegami K, Yoshimura T, Shiba K, Inaba K, Sasanami T. Sperm activation by heat shock protein 70 supports the migration of sperm released from sperm storage tubules in Japanese quail (Coturnix japonica). Reproduction. 2013 Dec 19;147(2):167-78. doi: 10.1530/REP-13-0439. Print 2014.

 

2012

  1. Kikuchi A, Shiba K, Ozawa T, Nakano K, Inaba K, Numata O. Black Tea High-Molecular-Weight Polyphenol Increases the Motility of Sea Urchin Sperm by Activating Mitochondrial Respiration.Biosci Biotechnol Biochem. 2012 Dec 23;76(12):2321-4.
  2. Mizuno K, Shiba K, Okai M, Takahashi Y, Shitaka Y, Oiwa K, Tanokura M, Inaba K. Calaxin drives sperm chemotaxis by Ca2+-mediated direct modulation of a dynein motor. Proc Natl Acad Sci U S A. 2012 Dec 11;109(50):20497-502.
  3. Mohri H, Inaba K, Ishijima S, Baba SA. Tubulin-dynein system in flagellar and ciliary movement.Proc Jpn Acad Ser B Phys Biol Sci. 2012;88(8):397-415.
  4. Yuan Y, Tanabe T, Maekawa F, Inaba K, Maeda Y, Itoh N, Takahashi KG, Osada M. Isolation and functional characterization for oocyte maturation and sperm motility of the oocyte maturation arresting factor from the Japanese scallop, Patinopecten yessoensis.Gen Comp Endocrinol. 2012 Dec 1;179(3):350-7.
  5. Itou T, Kanno M, Suyama ., Kamiyama A, Sakamoto SX, Kijima A, Inaba K, Aoki MN. Development of 12 polymorphic microsatellite DNA markers for the kelp Ecklonia cava (Phaeophyceae, Laminariales). Conservation Genetics Resources 2012 Jun; 4(2):459-461.
  6. Saito T, Shiba K, Inaba K, Yamada L, Sawada H. Self-incompatibility response induced by calcium increase in sperm of the ascidian Ciona intestinalis. Proc Natl Acad Sci U S A. 2012 Mar 13;109(11):4158-62.
  7. Yaguchi J, Angerer LM, Inaba K, Yaguchi S. Zinc finger homeobox is required for the differentiation of serotonergic neurons in the sea urchin embryo.Dev Biol. 2012 Mar 1;363(1):74-83.
  8. Inaba K. Regulatory subunits of axonemal dynein. Handbook of Dynein (eds. Hirose, Amos). PanStanford Publishing, (2012), pp. 303-324.
  9. Shiba K, Mizuno K and Inaba K. Molecular comparison of the axonemal components between sperm flagella and Chlamydomonas flagella. Spermatology: new horizons in the 21 century (ed. M. Moriwsawa). Adthree Publishing Co. Ltd (2012), pp.30-40.

2011

  1. Inaba K. Sperm flagella: comparative and phylogenetic perspectives of protein components. Mol Hum Reprod. 2011 Aug;17(8):524-38.
  2. Nakachi M, Nakajima A, Nomura M, Yonezawa K, Ueno K, Endo T, Inaba K. Proteomic profiling reveals compartment-specific, novel functions of ascidian sperm proteins. Mol Reprod Dev. 2011 Jul;78(7):529-49.
  3. Yaguchi S, Yaguchi J, Wei Z, Jin Y, Angerer LM, Inaba K. Fez function is required to maintain the size of the animal plate in the sea urchin embryo. Development. 2011 Oct;138(19):4233-43.
  4. Zhu L, Inaba K. Lipid rafts function in Ca(2+) signaling responsible for activation of sperm motility and chemotaxis in the ascidian Ciona intestinalis. Mol Reprod Dev. 2011 Aug 16.

2010

  1. Konno A, Kaizu M, Hotta K, Horie T, Sasakura Y, Ikeo K, Inaba K. Distribution and structural diversity of cilia in tadpole larvae of the ascidian Ciona intestinalis. Dev Biol. 2010 Jan 1;337(1):42-62.
  2. Yamazaki Y, Akashi R, Banno Y, Endo T, Ezura H, Fukami-Kobayashi K, Inaba K, Isa T, Kamei K, Kasai F, Kobayashi M, Kurata N, Kusaba M, Matuzawa T, Mitani S, Nakamura T, Nakamura Y, Nakatsuji N, Naruse K, Niki H, Nitasaka E, Obata Y, Okamoto H, Okuma M, Sato K, Serikawa T, Shiroishi T, Sugawara H, Urushibara H, Yamamoto M, Yaoita Y, Yoshiki A, Kohara Y. NBRP databases: databases of biological resources in Japan. Nucleic Acids Res.2010 Jan;38(Database issue):D26-32.
  3. Sasakura Y, Suzuki MM, Hozumi A, Inaba K, Satoh N. Maternal factor-mediated epigenetic gene silencing in the ascidian Ciona intestinalis. Mol Genet Genomics. 2010 Jan;283(1):99-110.
  4. Konno A, Padma P, Ushimaru Y, Inaba K. Multidimensional analysis of uncharacterized sperm proteins in Ciona intestinalis: EST-based analysis and functional immunoscreening of testis-expressed genes. Zoolog Sci. 2010 Feb;27(2):204-15.
  5. Yaguchi S, Yaguchi J, Wei Z, Shiba K, Angerer LM, Inaba K. ankAT-1 is a novel gene mediating the apical tuft formation in the sea urchin embryo. . Dev Biol. 2010 Dec 1;348(1):67-75.
  6. Endo T, Ueno K, Yonezawa K, Mineta K, Hotta K, Satou Y, Yamada L, Ogasawara M, Takahashi H, Nakajima A, Nakachi M, Nomura M, Yaguchi J, Sasakura Y, Yamasaki C, Sera M, Yoshizawa AC, Imanishi T, Taniguchi H, Inaba K. CIPRO 2.5: Ciona intestinalis protein database, a unique integrated repository of large-scale omics data, bioinformatic analyses and curated annotation, with user rating and reviewing functionality. Nucleic Acids Res. 2011 Jan;39(Database issue):D807-14.

2009

  1. Sasakura Y, Inaba K, Satoh N, Kondo M, Akasaka K. Ciona intestinalis and Oxycomanthus japonicus, representatives of marine invertebrates. Exp Anim. 2009 Oct;58(5):459-69.
  2. Inaba K and Mizuno K. Purification of dyneins from sperm flagella. Axonemal dynein-mediated motility and IFT. (King and Pazour, eds),  Methods Cell Biol. 2009;92:49-63
  3. Satouh Y, Inaba K. Proteomic characterization of sperm radial spokes identifies a novel spoke protein with an ubiquitin domain. FEBS Lett. 2009 Jul 7;583(13):2201-7.
  4. Mizuno K, Padma P, Konno A, Satouh Y, Ogawa K, Inaba K. A novel neuronal calcium sensor family protein, calaxin, is a potential Ca2+-dependent regulator for outer arm dynein of metazoan cilia and flagella. Biol Cell. 2009 Feb;101(2):91-103.
  5. Nomura M, Nakajima A, Inaba K. Proteomic profiles of embryonic development in the ascidian Ciona intestinalis. Dev Biol. 2009 Jan 15;325(2):468-81.

2008

  1. Satou Y, Mineta K, Ogasawara M, Sasakura Y, Shoguchi E, Ueno K, Yamada L, Matsumoto J, Wasserscheid J, Dewar K, Wiley GB, Macmil SL, Roe BA, Zeller RW, Hastings KE, Lemaire P, Lindquist E, Endo T, Hotta K, Inaba K. Improved genome assembly and evidence-based global gene model set for the chordate Ciona intestinalis: new insight into intron and operon populations. Genome Biol. 2008 Oct 14;9(10):R152. [Epub ahead of print]
  2. Kondoh E, Konno A, Inaba K, Oishi T, Murata M, Yoshida M. Valosin-containing protein/p97 interacts with sperm-activating and sperm-attracting factor (SAAF) in the ascidian egg and modulates sperm-attracting activity. Dev Growth Differ. 2008 Oct;50(8):665-73.
  3. Hozumi A, Padma P, Toda T, Ide H, Inaba K. Molecular characterization of axonemal proteins and signaling molecules responsible for chemoattractant-induced sperm activation in Ciona intestinalis.Cell Motil Cytoskeleton. 2008 Mar;65(3):249-67.
  4. Sasakura Y, Konno A, Mizuno K, Satoh N, Inaba K. Enhancer detection in the ascidian Ciona intestinalis with transposase-expressing lines of Minos. Dev Dyn. 2008 Jan;237(1):39-50.

2007

  1. Hotta K, Mitsuhara K, Takahashi H, Inaba K, Oka K, Gojobori T, Ikeo K. A web-based interactive developmental table for the ascidian Ciona intestinalis, including 3D real-image embryo reconstructions: I. From fertilized egg to hatching larva.Dev Dyn. 2007 Jul;236(7):1790-805.
  2. Awazu S, Matsuoka T, Inaba K, Satoh N, Sasakura Y. High-throughput enhancer trap by remobilization of transposon Minos in Ciona intestinalis. Genesis. 2007 May;45(5):307-17.
  3. Inaba K, Nomura M, Nakajima A, Hozumi A. Functional proteomics in Ciona intestinalis: a breakthrough in the exploration of the molecular and cellular mechanism of ascidian development.Dev Dyn. 2007 Jul;236(7):1782-9.
  4. Inaba K. Molecular basis of sperm flagellar axonemes: structural and evolutionary aspects. Ann N Y Acad Sci. 2007 Apr;1101:506-26.