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Items: 16

1.

The Lin28/let-7 Pathway Regulates the Mammalian Caudal Body Axis Elongation Program.

Robinton DA, Chal J, Lummertz da Rocha E, Han A, Yermalovich AV, Oginuma M, Schlaeger TM, Sousa P, Rodriguez A, Urbach A, Pourquié O, Daley GQ.

Dev Cell. 2019 Feb 11;48(3):396-405.e3. doi: 10.1016/j.devcel.2018.12.016. Epub 2019 Jan 17.

PMID:
30661985
2.

Ripply2 recruits proteasome complex for Tbx6 degradation to define segment border during murine somitogenesis.

Zhao W, Oginuma M, Ajima R, Kiso M, Okubo A, Saga Y.

Elife. 2018 May 15;7. pii: e33068. doi: 10.7554/eLife.33068.

3.

Recapitulating early development of mouse musculoskeletal precursors of the paraxial mesoderm in vitro.

Chal J, Al Tanoury Z, Oginuma M, Moncuquet P, Gobert B, Miyanari A, Tassy O, Guevara G, Hubaud A, Bera A, Sumara O, Garnier JM, Kennedy L, Knockaert M, Gayraud-Morel B, Tajbakhsh S, Pourquié O.

Development. 2018 Mar 19;145(6). pii: dev157339. doi: 10.1242/dev.157339.

4.

A Gradient of Glycolytic Activity Coordinates FGF and Wnt Signaling during Elongation of the Body Axis in Amniote Embryos.

Oginuma M, Moncuquet P, Xiong F, Karoly E, Chal J, Guevorkian K, Pourquié O.

Dev Cell. 2017 Feb 27;40(4):342-353.e10. doi: 10.1016/j.devcel.2017.02.001.

5.

Differentiation of pluripotent stem cells to muscle fiber to model Duchenne muscular dystrophy.

Chal J, Oginuma M, Al Tanoury Z, Gobert B, Sumara O, Hick A, Bousson F, Zidouni Y, Mursch C, Moncuquet P, Tassy O, Vincent S, Miyanari A, Bera A, Garnier JM, Guevara G, Hestin M, Kennedy L, Hayashi S, Drayton B, Cherrier T, Gayraud-Morel B, Gussoni E, Relaix F, Tajbakhsh S, Pourquié O.

Nat Biotechnol. 2015 Sep;33(9):962-9. doi: 10.1038/nbt.3297. Epub 2015 Aug 3.

6.

Targeted gene silencing in mouse germ cells by insertion of a homologous DNA into a piRNA generating locus.

Yamamoto Y, Watanabe T, Hoki Y, Shirane K, Li Y, Ichiiyanagi K, Kuramochi-Miyagawa S, Toyoda A, Fujiyama A, Oginuma M, Suzuki H, Sado T, Nakano T, Sasaki H.

Genome Res. 2013 Feb;23(2):292-9. doi: 10.1101/gr.137224.112. Epub 2012 Nov 6.

7.

Analysis of Ripply1/2-deficient mouse embryos reveals a mechanism underlying the rostro-caudal patterning within a somite.

Takahashi J, Ohbayashi A, Oginuma M, Saito D, Mochizuki A, Saga Y, Takada S.

Dev Biol. 2010 Jun 15;342(2):134-45. doi: 10.1016/j.ydbio.2010.03.015. Epub 2010 Mar 25.

8.

The oscillation of Notch activation, but not its boundary, is required for somite border formation and rostral-caudal patterning within a somite.

Oginuma M, Takahashi Y, Kitajima S, Kiso M, Kanno J, Kimura A, Saga Y.

Development. 2010 May;137(9):1515-22. doi: 10.1242/dev.044545. Epub 2010 Mar 24.

9.

Wnt signaling maintains the notochord fate for progenitor cells and supports the posterior extension of the notochord.

Ukita K, Hirahara S, Oshima N, Imuta Y, Yoshimoto A, Jang CW, Oginuma M, Saga Y, Behringer RR, Kondoh H, Sasaki H.

Mech Dev. 2009 Oct;126(10):791-803. doi: 10.1016/j.mod.2009.08.003. Epub 2009 Aug 29.

10.

Functional importance of evolutionally conserved Tbx6 binding sites in the presomitic mesoderm-specific enhancer of Mesp2.

Yasuhiko Y, Kitajima S, Takahashi Y, Oginuma M, Kagiwada H, Kanno J, Saga Y.

Development. 2008 Nov;135(21):3511-9. doi: 10.1242/dev.027144.

11.

Mesp2 and Tbx6 cooperatively create periodic patterns coupled with the clock machinery during mouse somitogenesis.

Oginuma M, Niwa Y, Chapman DL, Saga Y.

Development. 2008 Aug;135(15):2555-62. doi: 10.1242/dev.019877. Epub 2008 Jun 25.

12.

Identification of presomitic mesoderm (PSM)-specific Mesp1 enhancer and generation of a PSM-specific Mesp1/Mesp2-null mouse using BAC-based rescue technology.

Oginuma M, Hirata T, Saga Y.

Mech Dev. 2008 May-Jun;125(5-6):432-40. doi: 10.1016/j.mod.2008.01.010. Epub 2008 Feb 5.

13.

The negative regulation of Mesp2 by mouse Ripply2 is required to establish the rostro-caudal patterning within a somite.

Morimoto M, Sasaki N, Oginuma M, Kiso M, Igarashi K, Aizaki K, Kanno J, Saga Y.

Development. 2007 Apr;134(8):1561-9. Epub 2007 Mar 14.

14.

GFP transgenic mice reveal active canonical Wnt signal in neonatal brain and in adult liver and spleen.

Moriyama A, Kii I, Sunabori T, Kurihara S, Takayama I, Shimazaki M, Tanabe H, Oginuma M, Fukayama M, Matsuzaki Y, Saga Y, Kudo A.

Genesis. 2007 Feb;45(2):90-100.

PMID:
17245775
15.

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