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Profile Publications (55)

Publications By Atsushi Suzuki

Results 1 - 50 of 55 results

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Injury-induced cooperation of InhibinβA and JunB is essential for cell proliferation in Xenopus tadpole tail regeneration., Nakamura M, Kyoda T, Yoshida H, Takebayashi-Suzuki K, Koike R, Takahashi E, Moriyama Y, Wlizla M, Horb ME, Suzuki A., Sci Rep. February 14, 2024; 14 (1): 3679.

Zbtb21 is required for the anterior-posterior patterning of neural tissue in the early Xenopus embryo., Takebayashi-Suzuki K, Uchida M, Suzuki A., Biochem Biophys Res Commun. November 19, 2022; 630 190-197.

The dual-specificity protein kinase Clk3 is essential for Xenopus neural development., Virgirinia RP, Nakamura M, Takebayashi-Suzuki K, Fatchiyah F, Suzuki A., Biochem Biophys Res Commun. August 27, 2021; 567 99-105.                                  

TGF-β1 signaling is essential for tissue regeneration in the Xenopus tadpole tail., Nakamura M, Yoshida H, Moriyama Y, Kawakita I, Wlizla M, Takebayashi-Suzuki K, Horb ME, Suzuki A., Biochem Biophys Res Commun. August 6, 2021; 565 91-96.          

The AP-1 transcription factor JunB functions in Xenopus tail regeneration by positively regulating cell proliferation., Nakamura M, Yoshida H, Takahashi E, Wlizla M, Takebayashi-Suzuki K, Horb ME, Suzuki A., Biochem Biophys Res Commun. February 19, 2020; 522 (4): 990-995.              

Cdc2-like kinase 2 (Clk2) promotes early neural development in Xenopus embryos., Virgirinia RP, Jahan N, Okada M, Takebayashi-Suzuki K, Yoshida H, Nakamura M, Akao H, Yoshimoto Y, Fatchiyah F, Ueno N, Suzuki A., Dev Growth Differ. August 1, 2019; 61 (6): 365-377.                              

Xenopus Resources: Transgenic, Inbred and Mutant Animals, Training Opportunities, and Web-Based Support., Horb M, Wlizla M, Abu-Daya A, McNamara S, Gajdasik D, Igawa T, Suzuki A, Ogino H, Noble A, Centre de Ressource Biologique Xenope team in France, Robert J, James-Zorn C, Guille M., Front Physiol. January 1, 2019; 10 387.        

Coordinated regulation of the dorsal-ventral and anterior-posterior patterning of Xenopus embryos by the BTB/POZ zinc finger protein Zbtb14., Takebayashi-Suzuki K, Konishi H, Miyamoto T, Nagata T, Uchida M, Suzuki A., Dev Growth Differ. April 1, 2018; 60 (3): 158-173.          

Identification and comparative analyses of Siamois cluster genes in Xenopus laevis and tropicalis., Haramoto Y, Saijyo T, Tanaka T, Furuno N, Suzuki A, Ito Y, Kondo M, Taira M, Takahashi S., Dev Biol. June 15, 2017; 426 (2): 374-383.                  

Genomic organization and modulation of gene expression of the TGF-β and FGF pathways in the allotetraploid frog Xenopus laevis., Suzuki A, Yoshida H, van Heeringen SJ, Takebayashi-Suzuki K, Veenstra GJC, Taira M., Dev Biol. June 15, 2017; 426 (2): 336-359.                

Genome organization of the vg1 and nodal3 gene clusters in the allotetraploid frog Xenopus laevis., Suzuki A, Uno Y, Takahashi S, Grimwood J, Schmutz J, Mawaribuchi S, Yoshida H, Takebayashi-Suzuki K, Ito M, Matsuda Y, Rokhsar D, Taira M., Dev Biol. June 15, 2017; 426 (2): 236-244.            

Genome evolution in the allotetraploid frog Xenopus laevis., Session AM, Uno Y, Kwon T, Chapman JA, Toyoda A, Takahashi S, Fukui A, Hikosaka A, Suzuki A, Kondo M, van Heeringen SJ, Quigley I, Heinz S, Ogino H, Ochi H, Hellsten U, Lyons JB, Simakov O, Putnam N, Stites J, Kuroki Y, Tanaka T, Michiue T, Watanabe M, Bogdanovic O, Lister R, Georgiou G, Paranjpe SS, van Kruijsbergen I, Shu S, Carlson J, Kinoshita T, Ohta Y, Mawaribuchi S, Jenkins J, Grimwood J, Schmutz J, Mitros T, Mozaffari SV, Suzuki Y, Haramoto Y, Yamamoto TS, Takagi C, Heald R, Miller K, Haudenschild C, Kitzman J, Nakayama T, Izutsu Y, Robert J, Fortriede J, Burns K, Lotay V, Karimi K, Yasuoka Y, Dichmann DS, Flajnik MF, Houston DW, Shendure J, DuPasquier L, Vize PD, Zorn AM, Ito M, Marcotte EM, Wallingford JB, Ito Y, Asashima M, Ueno N, Matsuda Y, Veenstra GJ, Fujiyama A, Harland RM, Taira M, Rokhsar DS., Nature. October 20, 2016; 538 (7625): 336-343.                              

A pure chloride channel mutant of CLC-5 causes Dent's disease via insufficient V-ATPase activation., Satoh N, Yamada H, Yamazaki O, Suzuki M, Nakamura M, Suzuki A, Ashida A, Yamamoto D, Kaku Y, Sekine T, Seki G, Horita S., Pflugers Arch. July 1, 2016; 468 (7): 1183-1196.

Involvement of JunB Proto-Oncogene in Tail Formation During Early Xenopus Embryogenesis., Yoshida H, Okada M, Takebayashi-Suzuki K, Ueno N, Suzuki A., Zoolog Sci. June 1, 2016; 33 (3): 282-9.  

Inbreeding Ratio and Genetic Relationships among Strains of the Western Clawed Frog, Xenopus tropicalis., Igawa T, Watanabe A, Suzuki A, Kashiwagi A, Kashiwagi K, Noble A, Guille M, Simpson DE, Horb ME, Fujii T, Sumida M., PLoS One. July 16, 2015; 10 (7): e0133963.          

BMP inhibition by DAN in Hensen's node is a critical step for the establishment of left-right asymmetry in the chick embryo., Katsu K, Tokumori D, Tatsumi N, Suzuki A, Yokouchi Y., Dev Biol. March 1, 2012; 363 (1): 15-26.

The forkhead transcription factor FoxB1 regulates the dorsal-ventral and anterior-posterior patterning of the ectoderm during early Xenopus embryogenesis., Takebayashi-Suzuki K, Kitayama A, Terasaka-Iioka C, Ueno N, Suzuki A., Dev Biol. December 1, 2011; 360 (1): 11-29.              

The Xenopus POU class V transcription factor XOct-25 inhibits ectodermal competence to respond to bone morphogenetic protein-mediated embryonic induction., Takebayashi-Suzuki K, Arita N, Murasaki E, Suzuki A., Mech Dev. January 1, 2007; 124 (11-12): 840-55.    

Identification of an essential sequence for dihydroceramide C-4 hydroxylase activity of mouse DES2., Omae F, Miyazaki M, Enomoto A, Suzuki A., FEBS Lett. October 8, 2004; 576 (1-2): 63-7.

Effects of TGF-beta on hyaluronan anabolism in fibroblasts derived from the synovial membrane of the rabbit temporomandibular joint., Tanimoto K, Suzuki A, Ohno S, Honda K, Tanaka N, Doi T, Yoneno K, Ohno-Nakahara M, Nakatani Y, Ueki M, Tanne K., J Dent Res. January 1, 2004; 83 (1): 40-4.

Interplay between the tumor suppressor p53 and TGF beta signaling shapes embryonic body axes in Xenopus., Takebayashi-Suzuki K, Funami J, Tokumori D, Saito A, Watabe T, Miyazono K, Kanda A, Suzuki A., Development. September 1, 2003; 130 (17): 3929-39.  

Establishment of the organizing activity of the lower endodermal half of the dorsal marginal zone is a primary and necessary event for dorsal axis formation in Cynops pyrrhogaster., Sakaguchi K, Kaneda T, Matsumoto M, Imoh H, Suzuki AS., Int J Dev Biol. September 1, 2002; 46 (6): 793-800.

Expression of a novel matrix metalloproteinase gene during Cynops early embryogenesis., Suzuki AS, Tadano Y, Yamamoto T, Abe SI, Tajima T., Biochem Biophys Res Commun. October 26, 2001; 288 (2): 380-4.

Analysis of the isoform of Xenopus euakryotic translation initiation factor 4E., Wakiyama M, Suzuki A, Saigoh M, Sakai N, Miyoshi H, Kojima S, Miura K., Biosci Biotechnol Biochem. January 1, 2001; 65 (1): 232-5.

Translational regulation of the mRNA encoding the eukaryotic translation initiation factor 4E in Xenopus., Wakiyama M, Saigoh M, Ikeda K, Suzuki A, Miura K., Biosci Biotechnol Biochem. January 1, 2001; 65 (1): 229-31.

Xenopus embryonic E2F is required for the formation of ventral and posterior cell fates during early embryogenesis., Suzuki A, Hemmati-Brivanlou A., Mol Cell. February 1, 2000; 5 (2): 217-29.                      

Musashi1: an evolutionally conserved marker for CNS progenitor cells including neural stem cells., Kaneko Y, Sakakibara S, Imai T, Suzuki A, Nakamura Y, Sawamoto K, Ogawa Y, Toyama Y, Miyata T, Okano H., Dev Neurosci. January 1, 2000; 22 (1-2): 139-53.

Molecular basis for oviductin-mediated processing from gp43 to gp41, the predominant glycoproteins of Xenopus egg envelopes., Kubo H, Matsushita M, Kotani M, Kawasaki H, Saido TC, Kawashima S, Katagiri C, Suzuki A., Dev Genet. January 1, 1999; 25 (2): 123-9.      

Timing and mechanisms of mesodermal and neural determination revealed by secondary embryo formation in Cynops and Xenopus., Imoh H, Yamamoto Y, Terahara T, Moody SA, Suzuki AS., Dev Growth Differ. August 1, 1998; 40 (4): 439-48.  

Functional analysis of an ascidian homologue of vertebrate Bmp-2/Bmp-4 suggests its role in the inhibition of neural fate specification., Miya T, Morita K, Suzuki A, Ueno N, Satoh N., Development. December 1, 1997; 124 (24): 5149-59.  

Regulation of epidermal induction by BMP2 and BMP7 signaling., Suzuki A, Kaneko E, Ueno N, Hemmati-Brivanlou A., Dev Biol. September 1, 1997; 189 (1): 112-22.

Concentration-dependent patterning of the Xenopus ectoderm by BMP4 and its signal transducer Smad1., Wilson PA, Lagna G, Suzuki A, Hemmati-Brivanlou A., Development. August 1, 1997; 124 (16): 3177-84.

Xenopus msx1 mediates epidermal induction and neural inhibition by BMP4., Suzuki A, Ueno N, Hemmati-Brivanlou A., Development. August 1, 1997; 124 (16): 3037-44.                    

Smad5 induces ventral fates in Xenopus embryo., Suzuki A, Chang C, Yingling JM, Wang XF, Hemmati-Brivanlou A., Dev Biol. April 15, 1997; 184 (2): 402-5.    

Mesoderm induction by BMP-4 and -7 heterodimers., Suzuki A, Kaneko E, Maeda J, Ueno N., Biochem Biophys Res Commun. March 6, 1997; 232 (1): 153-6.

The role of BMP-4 and GATA-2 in the induction and differentiation of hematopoietic mesoderm in Xenopus laevis., Maeno M, Mead PE, Kelley C, Xu RH, Kung HF, Suzuki A, Ueno N, Zon LI., Blood. September 15, 1996; 88 (6): 1965-72.

Involvement of Ras/Raf/AP-1 in BMP-4 signaling during Xenopus embryonic development., Xu RH, Dong Z, Maeno M, Kim J, Suzuki A, Ueno N, Sredni D, Colburn NH, Kung HF., Proc Natl Acad Sci U S A. January 23, 1996; 93 (2): 834-8.          

BMP-4 regulates the dorsal-ventral differences in FGF/MAPKK-mediated mesoderm induction in Xenopus., Northrop J, Woods A, Seger R, Suzuki A, Ueno N, Krebs E, Kimelman D., Dev Biol. November 1, 1995; 172 (1): 242-52.            

Developmental and differential regulations in gene expression of Xenopus pleiotrophic factors-alpha and -beta., Tsujimura A, Yasojima K, Kuboki Y, Suzuki A, Ueno N, Shiokawa K, Hashimoto-Gotoh T., Biochem Biophys Res Commun. September 14, 1995; 214 (2): 432-9.              

Involvement of the MAP kinase cascade in Xenopus mesoderm induction., Gotoh Y, Masuyama N, Suzuki A, Ueno N, Nishida E., EMBO J. June 1, 1995; 14 (11): 2491-8.

Differential distribution of ganglioside GM1 and sulfatide during the development of Xenopus embryos., Kubo H, Kotani M, Ozawa H, Kawashima L, Tai T, Suzuki A., Dev Growth Differ. June 1, 1995; 37 (3): 243-255.

Localized BMP-4 mediates dorsal/ventral patterning in the early Xenopus embryo., Schmidt JE, Suzuki A, Ueno N, Kimelman D., Dev Biol. May 1, 1995; 169 (1): 37-50.              

A truncated bone morphogenetic protein 4 receptor alters the fate of ventral mesoderm to dorsal mesoderm: roles of animal pole tissue in the development of ventral mesoderm., Maéno M, Ong RC, Suzuki A, Ueno N, Kung HF., Proc Natl Acad Sci U S A. October 25, 1994; 91 (22): 10260-4.          

A truncated bone morphogenetic protein receptor affects dorsal-ventral patterning in the early Xenopus embryo., Suzuki A, Thies RS, Yamaji N, Song JJ, Wozney JM, Murakami K, Ueno N., Proc Natl Acad Sci U S A. October 25, 1994; 91 (22): 10255-9.          

Autoinduction of activin genes in early Xenopus embryos., Suzuki A, Nagai T, Nishimatsu S, Sugino H, Eto Y, Shibai H, Murakami K, Ueno N., Biochem J. March 1, 1994; 298 ( Pt 2) 275-80.

Biochemical properties of amphibian bone morphogenetic protein-4 expressed in CHO cells., Suzuki A, Nishimatsu S, Shoda A, Takebayashi K, Murakami K, Ueno N., Biochem J. April 15, 1993; 291 ( Pt 2) 413-7.

Possible mechanisms in the rearrangement of non-yolk cytoplasmic materials during maturation of theXenopus laevis oocyte., Suzuki AS, Manabe J, Imoh H., Rouxs Arch Dev Biol. April 1, 1993; 202 (4): 240-245.

Differential expression of Xenopus BMPs in early embryos and tissues., Suzuki A, Nishimatsu S, Murakami K, Ueno N., Zoolog Sci. February 1, 1993; 10 (1): 175-8.

Immunodetection of Xenopus bone morphogenetic protein-4 in early embryos., Nishimatsu S, Takebayashi K, Suzuki A, Murakami K, Ueno N., Growth Factors. January 1, 1993; 8 (3): 173-6.

A carboxyl-terminal truncated version of the activin receptor mediates activin signals in early Xenopus embryos., Nishimatsu S, Iwao M, Nagai T, Oda S, Suzuki A, Asashima M, Murakami K, Ueno N., FEBS Lett. November 9, 1992; 312 (2-3): 169-73.

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