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弥益 恭 研究業績

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原著論文

Yukiko Nakayama, Chihiro Inomata, Tatsuya Yuikawa, Sachiko Tsuda, and Kyo Yamasu
Comprehensive analysis of target genes in zebrafish embryos reveals gbx2 involvement in neurogenesis.
Dev. Biol. 430, 237-248 (2017) [PubMed]

Taminato T, Yokota D, Araki S, Ovara H, Yamasu K, Kawamura A.
Enhancer activity-based identification of functional enhancers using zebrafish embryos.
Genomics. 108,102-107 (2016) [PubMed]>

Akinori Kawamura, Hiroki Ovara, Yuko Ooka, Hirofumi Kinoshita, Miki Hoshikawa, Kenji Nakajo, Daisuke Yokota, Yuuri Fujino, Shin-ichi Higashijima, Shinji Takada, Kyo Yamasu
Posterior-anterior gradient of zebrafish hes6 expression in the presomitic mesoderm is established by the combinatorial functions of the downstream enhancer and 3′UTR.
Dev. Biol. 130, 532-552 (2016) [PubMed]

Yukiko Nakayama, Hiroshi Kikuta, Maiko Kanai, Kimihito Yoshikawa, Akinori Kawamura, Kana Kobayashi, Zhe Wang, Alam Khan, Koichi Kawakami, and Kyo Yamasu
Gbx2 functions as a transcriptional repressor to regulate the specification and morphogenesis of the mid-hindbrain junction in a dosage- and stage-dependent manner.
Mech. Dev. 130, 532-552 (2013) [PubMed]

Khan, A. Nakamoto, S. Okamoto, M. Tai, Y. Nakayama, K. Kobayashi, A. Kawamura, H. Takeda, and K. Yamasu
Pou2, a class V POU-type transcription factor in zebrafish, regulates dorsoventral patterning  and convergent extension movement at different blastula stages
Mech. Dev. 129, 219-235 (2012) [PubMed]

A. Khan, A. Nakamoto, M. Tai, S. Saito, Y. Nakayama, A. Kawamura, H. Takeda, and K. Yamasu
Mesendoderm specification depends on the function of Pou2, the class V POU-type transcription factor, during zebrafish embryogenesis
Develop. Growth Differ. 54, 686-701 (2012) [PubMed]

M. Saito, K. Yamasu, & T. Suyemitsu
Binding properties of thyroxine to nuclear extract from sea urchin larvae.
Zool. Sci.29, 79-82 (2012) [PubMed]

A. Ishioka, T. Jindo, T. Kawanabe, K. Hatta, M. S. Parvin, M. Nikaido, Y. Kuroyanagi, H. Takeda, and K. Yamasu
Retinoic acid-dependent establishment of positional information in the hindbrain was conserved during vertebrate evolution.
Dev. Biol. 350, 154-168 (2011) [PubMed]

S. Ota, N. Tonou-Fujimori, Y. Nakayama, Y. Ito, A. Kawamura, and K. Yamasu
FGF receptor gene expression and its regulation by FGF signaling during early zebrafish development.
Genesis. 48, 707-716 (2010) [PubMed] <Cover Image>


S. Ota, N. Tonou-Fujimori, and K. Yamasu
The roles of the FGF signal in zebrafish embryos analyzed using constitutive activation and dominant-negative suppression of different FGF receptors.
Mech. Dev. 126, 1-17 (2009) [PubMed]

M. S. Parvin, N. Okuyama, F. Inoue, M. E. Islam, A. Kawakami, H. Takeda, & K. Yamasu
An autoregulatory loop and retinoic acid repression regulate pou2/pou5f1 gene expression in the zebrafish embryonic brain.
Dev. Dyn. 237, 1373-1388 (2008) [PubMed]

F. Inoue, M. S. Parvin, & K. Yamasu
Transcription of fgf8 is regulated by activating and repressive cis-elements at the midbrain-hindbrain boundary in zebrafish embryos.
Dev. Biol.316, 471-486 (2008) [PubMed]

M. Nikaido, K. Doi, T. Shimizu, M. Hibi, Y. Kikuchi, & K. Yamasu
Initial specification of the epibranchial placode in zebrafish embryos depends on the fibroblast growth factor signal.
Dev. Dyn. 236, 564-571 (2007) [PubMed]

M. E. Islam, H. Kikuta, F. Inoue, M. Kanai, A. Kawakami, M. S. Parvin, H. Takeda, & K. Yamasu
Three enhancer regions regulate gbx2 gene expression in the isthmic region during zebrafish development.
Mech. Dev. 123, 907-924 (2006)[PubMed]

F. Inoue, S. Nagayoshi, S. Ota, M. E. Islam, N. Tonou-Fujimori, Y. Odaira, K. Kawakami, & K. Yamasu
Genomic organization, alternative splicing, and multiple regulatory regions of the zebrafish fgf8 gene.
Develop. Growth & Differ. 48, 447- 62 (2006)[PubMed]

H. Kikuta, M. Kanai, Y. Ito, & K. Yamasu
gbx2 homeobox gene is required for the maintenance of the isthmic region in the zebrafish embryonic brain.
Dev. Dyn. 228, 433-450 (2003)[PubMed]

K. Horii, G. Suzuki, T. Suyemitsu, & K. Yamasu
Characterization of the upstream region that regulates the transcription of the gene for the precursor to EGF-related peptides, exogastrula-inducing peptides, of the sea urchin Anthocidaris crassispina.
Comp. Biochem. Physiol. B Biochem. Mol. Biol. 136, 15-26 (2003)[PubMed]

Y. Hirate, H. Okamoto, & K. Yamasu
Structure of the zebrafish fasciclin I-related extracellular matrix protein (big-h3) and its characteristic expression during embryogenesis.
Gene Expr. Patterns 3, 331-336 (2003)[PubMed]

A. F. Giusti, F. J. O'Neill, K. Yamasu, K. R. Foltz, & L. A. Jaffe
Function of a sea urchin egg src family kinase in initiating Ca2+ release at fertilization.
Dev. Biol. 256, 367-378 (2003)[PubMed]

N. Tonou-Fujimori, M. Takahashi, H. Onodera, H. Kikuta, S. Koshida, H. Takeda & K. Yamasu
Expression of the FGF receptor 2 gene (fgfr2) during embryogenesis in the zebrafish Danio rerio.
Mech. Dev. 119, Suppl 1, S173-178 (2002)[PubMed]

Y. Haruguchi, K. Horii, G. Suzuki, T. Suyemitsu, K. Ishihara, & K. Yamasu
Genomic organization of the gene that encodes the precursor to EGF-related peptides, exogastrula-inducing peptides, of the sea urchin Anthocidaris crassispina.
Biochim. Biophys. Acta 1574, 311-320 (2002)[PubMed]

K. Tomita, K. Yamasu, & T. Suyemitsu
Role of syndecan in the elongation of postoral arms in sea urchin larvae.
Develop. Growth & Differ. 44, 45-53 (2002)[PubMed]

Y. Hirate, M. Mieda, T. Harada, K. Yamasu, & H. Okamoto
Identification of ephrin-A3 and novel genes specific to the midbrain-MHB in embryonic zebrafish by ordered differential display.
Mech. Dev. 107, 83-96 (2001) [PubMed]

K. Yamasu, G. Suzuki, K. Horii, & T. Suyemitsu
Transcriptional regulation of the gene for epidermal growth factor-like peptides in sea urchin embryos.
Int. J. Dev. Biol. 44, 777-784 (2000) [PubMed]

K. Tomita, K. Yamasu, & T. Suyemitsu
Cloning and characterization of the cDNA for syndecan core portein in sea urchin embryos.
Develop. Growth & Differ. 42, 449-458 (2000) [PubMed]

A. Sawada, A. Fritz, Y.-J. Jiang, A. Yamamoto, K. Yamasu, A. Kuroiwa, Y. Saga & H. Takeda
Zebrafish Mesp family genes, mesp-a and mesp-b are segmentally expressed in the presomitic mesoderm, and Mesp-b confers the anterior identity to the developing somites.
Development 127, 1691-1702 (2000) [PubMed]

M. Saito & K. Yamasu
Expression of the gene for translation elongation factor 1a-related protein during development of the sea urchin Anthocidaris crassispina.
Zool.Sci. 16, 785-792 (1999) [J stage]

Y. Hirate, K. Tomita, S. Yamamoto, K. Kobari, I. Uemura, K. Yamasu, & T. Suyemitsu
Association of the sea urchin EGF-related peptide, EGIP-D, with fasciclin I related ECM proteins from the sea urchin Anthocidaris crassispina.
Develop. Growth & Differ. 41, 483-494 (1999) [PubMed]

H. Onodera, K. Kobari, M. Sakuma, M. Sato, T. Suyemitsu, & K. Yamasu
Expression of a src-type protein tyrosine kinase gene, AcSrc1, in the sea urchin embryo.
Develop. Growth & Differ. 41, 19-28 (1999) [PubMed]

K. Yamasu & F. H. Wilt
The functional organization of DNA elements regulating SM30a, a spicule matrix gene of sea urchin embryos.
Develop.Growth & Differ. 41, 81-91 (1999) [PubMed]

M. Saito, M. Seki, S. Amemiya, K. Yamasu, T. Suyemitsu, & K. Ishihara
Induction of metamorphosis in the sand dollar Peronella japonica by thyroid hormones.
Develop. Growth & Differ. 40, 307-312 (1998) [PubMed]

M. Sakuma, H. Onodera, T. Suyemitsu, & K. Yamasu
The protein tyrosine kinases of the sea urchin Anthocidaris crassispina.
Zool. Sci. 14, 941-946 (1997) [PubMed]

Y. Fujita, Y. Hirate, T, Hiyama, K. Yamasu, T. Suyemitsu, & K. Ishihara
Purification of EGIP-D-binding protein from the embryos of the sea urchin Anthocidaris crassispina.
Zool. Sci. 14, 931-934 (1997) [PubMed]

K.Yamasu, H.Watanabe, C.Kohchi, G.-I.Soma, D.Mizuno, K.Akasaka, H.Shimada, T.Suyemitsu, & K.Ishihara
Molecular cloning of a cDNA that encodes the precursor to several exogstrula- inducing peptides, epidermal-growth-factor-related polypeptides of the sea urchin Anthocidaris crassispina.
Eur.J.Biochem. 228, 515-523 (1995) [PubMed]

K.Akasaka, T.Frudakis, C.Killian, N.George, K.Yamasu, O.Kahner, & F.Wilt
Genomic organization of a gene encoding the spicule matrix protein SM30 in the sea urchin Strongylocentrotus purpuratus.
J. Biol.Chem. 269, 20592-20598 (1994) [PubMed]

Y.Fujita, K.Yamasu, T.Suyemitsu, & K.Ishihara
A protein that binds an exogastrula-inducing peptide, EGIP-D, in the hyaline layer of sea urchin embryos.
Develop.Growth & Differ. 36, 275-280 (1994)

H.Kanbayashi, K.Yamasu, T.Suyemitsu, & K.Ishihara
Local change of an exogastrula-inducing peptide (EGIP) in the pluteus larva of the sea urchin Anthocidaris crassispina.
Zool.Sci. 11, 157-160 (1994)

Y.Chino, M.Saito, K.Yamasu, T.Suyemitsu, & K.Ishihara
Formation of the adult rudiment of sea urchins is influenced by thyroid hormones.
Dev.Biol. 161, 1-11 (1994) [PubMed]

K.Yamasu & T.Senshu
Conservation of the dimeric unit of H2A and H2B histones during the replication cycle.
Exp.Cell Res. 207, 226-229 (1993) [PubMed]

N.Mizuno, I.Uemura, K.Yamasu, T.Suyemitsu & K.Ishihara
Localization of an exogastrula-inducing peptide (EGIP) in embryos of the sea urchin Anthocidaris crassispina.
Develop.Growth & Differ. 35, 539-549 (1993)

Y.Fujita, S.Igarashi, H.Fujisawa, K.Yamasu, T.Suyemitsu & K.Ishihara
Effects of exogastrula-inducing peptides on cell proliferation in embryos of the sea urchin Anthocidaris crassispina.
Zool.Sci. 10, 793-802 (1993)

K.Kinoshita, Y.Fujii, Y.Fujita, K.Yamasu, T.Suyemitsu & K.Ishihara
Maternal exogastrula-inducing peptides (EGIPs) and their changes during development in the sea urchin Anthocidaris crassispina.
Develop.Growth & Differ. 34, 661-668 (1992)

K.Yamasu, Y.Shimada, M.Sakaizumi, G.-I.Soma, & D.Mizuno
Activation of the systemic production of tumor necrosis factor after exposure to acute stress.
Eur.Cytokine Netw. 3, 391-398 (1992)[PubMed]

K.Yamasu & T.Senshu
Conservative segregation of tetrameric units of H3 and H4 histones during nucleosome replicaiton.
J.Biochem. 107, 15-20 (1990) [PubMed]

K.Yamasu, H.Onoe, G.-I.Soma, H.Oshima, & D.Mizuno
Secretion of tumor necrosis factor during fetal and neonatal development of the mouse: Ontogenic inflammation.
J.Biol.Res.Mod. 8, 644-655 (1989) [PubMed]

K.Yamasu & T.Senshu
Reassembly of nucleosomal histone octamers during replication of chromatin.
J.Biochem. 101, 1041-1049 (1987) [PubMed]

K.Yamasu, K.Akasaka, H.Shimada, & T.Shiroya
Localized distribution of HMG 14/17 proteins in transcriptionally active chromatin of rat liver.
Zool.Sci. 3, 279-285 (1986)

T.Senshu, K.Yamasu, & T.Ohsawa
Fractionation of newly replicated nucleosomes by density labeling and rate zonal centrifugation for the analysis of the deposition sites of newly synthesized nucleosomal core histones.
Eur.J.Biochem. 150, 575-580 (1985) [PubMed]

総 説

新屋みのり、武田洋幸、弥益 恭
ゼブラフィッシュから見た脊椎動物の神経誘導と中枢神経系の前後軸に沿ったパターン形成機構
蛋白質 核酸 酵素, 45, 2766-2774 (2000)

弥益 恭、末光隆志
原腸形成を制御するペプチド
遺伝, 48, 21-28 (1994)

著書(翻訳)

弥益 恭
ゼブラフィッシュの発生遺伝学
裳華房(2015)

弥益 恭(編集及び執筆分担)
生物の事典(石原勝敏、末光隆志総編集)、朝倉書店(2010)

石原・浅尾・団・山口・弥益著
目で見る生物学(三訂版) 培風館(2006)

F.H.Wilt & S.C.Hake、赤坂・大隅・八杉監訳(弥益分担訳)
ウィルト発生生物学、東京化学同人 (2006)

弥益 恭(分担、p2006-2007)
生物学データ大百科事典 〔下巻〕動物の発生段階表(石原勝敏、 金井龍二、 河野重行、 能村哲郎編集代表)朝倉書店(2002)

弥益 恭(分担執筆)
細胞周期、細胞培養、抽出・分離、カラムクロマトグラフィー、電気泳動 生物の実験―基礎と応用―(竹内正幸、石原勝敏編)裳華房) (1992)

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