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Items: 1 to 20 of 85

1.

A role for borg5 during trophectoderm differentiation.

Vong QP, Liu Z, Yoo JG, Chen R, Xie W, Sharov AA, Fan CM, Liu C, Ko MS, Zheng Y.

Stem Cells. 2010 Jun;28(6):1030-8. doi: 10.1002/stem.428.

2.

Tead4 is required for specification of trophectoderm in pre-implantation mouse embryos.

Nishioka N, Yamamoto S, Kiyonari H, Sato H, Sawada A, Ota M, Nakao K, Sasaki H.

Mech Dev. 2008 Mar-Apr;125(3-4):270-83.

3.

Inhibition of RHO-ROCK signaling enhances ICM and suppresses TE characteristics through activation of Hippo signaling in the mouse blastocyst.

Kono K, Tamashiro DA, Alarcon VB.

Dev Biol. 2014 Oct 1;394(1):142-55. doi: 10.1016/j.ydbio.2014.06.023.

4.

Klf5 regulates lineage formation in the pre-implantation mouse embryo.

Lin SC, Wani MA, Whitsett JA, Wells JM.

Development. 2010 Dec;137(23):3953-63. doi: 10.1242/dev.054775.

5.

Maternal-zygotic knockout reveals a critical role of Cdx2 in the morula to blastocyst transition.

Jedrusik A, Cox A, Wicher KB, Glover DM, Zernicka-Goetz M.

Dev Biol. 2015 Feb 15;398(2):147-52. doi: 10.1016/j.ydbio.2014.12.004.

6.

Cell polarity regulator PARD6B is essential for trophectoderm formation in the preimplantation mouse embryo.

Alarcon VB.

Biol Reprod. 2010 Sep;83(3):347-58. doi: 10.1095/biolreprod.110.084400.

7.

Brg1 is required for Cdx2-mediated repression of Oct4 expression in mouse blastocysts.

Wang K, Sengupta S, Magnani L, Wilson CA, Henry RW, Knott JG.

PLoS One. 2010 May 12;5(5):e10622. doi: 10.1371/journal.pone.0010622.

8.

Cdx2 is required for correct cell fate specification and differentiation of trophectoderm in the mouse blastocyst.

Strumpf D, Mao CA, Yamanaka Y, Ralston A, Chawengsaksophak K, Beck F, Rossant J.

Development. 2005 May;132(9):2093-102.

9.

GATA3 is selectively expressed in the trophectoderm of peri-implantation embryo and directly regulates Cdx2 gene expression.

Home P, Ray S, Dutta D, Bronshteyn I, Larson M, Paul S.

J Biol Chem. 2009 Oct 16;284(42):28729-37. doi: 10.1074/jbc.M109.016840.

10.
11.

Roles of ERα during mouse trophectoderm lineage differentiation: revealed by antagonist and agonist of ERα.

Cheng X, Xu S, Song C, He L, Lian X, Liu Y, Wei J, Pang L, Wang S.

Dev Growth Differ. 2016 Apr;58(3):327-38. doi: 10.1111/dgd.12276.

PMID:
27037955
12.

Notch and hippo converge on Cdx2 to specify the trophectoderm lineage in the mouse blastocyst.

Rayon T, Menchero S, Nieto A, Xenopoulos P, Crespo M, Cockburn K, Cañon S, Sasaki H, Hadjantonakis AK, de la Pompa JL, Rossant J, Manzanares M.

Dev Cell. 2014 Aug 25;30(4):410-22. doi: 10.1016/j.devcel.2014.06.019.

13.

Efficient derivation of pluripotent stem cells from siRNA-mediated Cdx2-deficient mouse embryos.

Wu G, Gentile L, Do JT, Cantz T, Sutter J, Psathaki K, Araúzo-Bravo MJ, Ortmeier C, Schöler HR.

Stem Cells Dev. 2011 Mar;20(3):485-93. doi: 10.1089/scd.2010.0128.

14.

EED and KDM6B coordinate the first mammalian cell lineage commitment to ensure embryo implantation.

Saha B, Home P, Ray S, Larson M, Paul A, Rajendran G, Behr B, Paul S.

Mol Cell Biol. 2013 Jul;33(14):2691-705. doi: 10.1128/MCB.00069-13.

15.

Rbm46 regulates trophectoderm differentiation by stabilizing Cdx2 mRNA in early mouse embryos.

Wang C, Chen Y, Deng H, Gao S, Li L.

Stem Cells Dev. 2015 Apr 1;24(7):904-15. doi: 10.1089/scd.2014.0323.

PMID:
25397698
16.

The H19 induction triggers trophoblast lineage commitment in mouse ES cells.

Fujimori H, Mukai H, Murakami Y, Hemberger M, Hippo Y, Masutani M.

Biochem Biophys Res Commun. 2013 Jun 28;436(2):313-8. doi: 10.1016/j.bbrc.2013.05.100.

PMID:
23743205
17.

Isolated mouse inner cell mass is unable to reconstruct trophectoderm.

Szczepanska K, Stanczuk L, Maleszewski M.

Differentiation. 2011 Jul;82(1):1-8. doi: 10.1016/j.diff.2011.04.001.

PMID:
21514715
18.

Disorganized epithelial polarity and excess trophectoderm cell fate in preimplantation embryos lacking E-cadherin.

Stephenson RO, Yamanaka Y, Rossant J.

Development. 2010 Oct;137(20):3383-91. doi: 10.1242/dev.050195.

19.

Trophectoderm lineage determination in cattle.

Berg DK, Smith CS, Pearton DJ, Wells DN, Broadhurst R, Donnison M, Pfeffer PL.

Dev Cell. 2011 Feb 15;20(2):244-55. doi: 10.1016/j.devcel.2011.01.003.

20.

Borg5 is required for angiogenesis by regulating persistent directional migration of the cardiac microvascular endothelial cells.

Liu Z, Vong QP, Liu C, Zheng Y.

Mol Biol Cell. 2014 Mar;25(6):841-51. doi: 10.1091/mbc.E13-09-0543.

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