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Literature DB >> 15136723

Cdx2 is essential for axial elongation in mouse development.

Kallayanee Chawengsaksophak¹, Wim de Graaff, Janet Rossant, Jacqueline Deschamps, Felix Beck.

Abstract

Inactivation of Cdx2 leads to preimplantation embryonic lethality. Rescue of the implantation defect by tetraploid fusion established that Cdx2 is necessary for trophoblastic development, vasculogenesis in the yolk sac mesoderm, allantoic growth, and chorioallantoic fusion. "Rescued" Cdx2 mutants die at late gastrulation stages because of failure of placental development. Cdx2 is also needed for the completion of the normal process of gastrulation and tail bud elongation. Presegmental paraxial mesoderm is severely restricted in amount and somites posterior to somite 5 are abnormal. The Cdx2 mutation, like mutations impairing Wnt and Fgf signaling, causes posterior truncations and disturbs axial patterning of the embryonic structures, indicated by changes in the Hox expression domains. The gene appears to be important in the integration of the pathways controlling embryonic axial elongation, and anterior-posterior patterning.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2004 PMID： 15136723 PMCID： PMC419659 DOI： 10.1073/pnas.0401654101

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

53 in total

1. FGF receptor signalling is required to maintain neural progenitors during Hensen's node progression.

Authors: L Mathis; P M Kulesa; S E Fraser
Journal: Nat Cell Biol Date: 2001-06 Impact factor: 28.824

2. Wnt-3a is required for somite specification along the anteroposterior axis of the mouse embryo and for regulation of cdx-1 expression.

Authors: M Ikeya; S Takada
Journal: Mech Dev Date: 2001-05 Impact factor: 1.882

3. Generating green fluorescent mice by germline transmission of green fluorescent ES cells.

Authors: A K Hadjantonakis; M Gertsenstein; M Ikawa; M Okabe; A Nagy
Journal: Mech Dev Date: 1998-08 Impact factor: 1.882

4. The retinoic acid-metabolizing enzyme, CYP26A1, is essential for normal hindbrain patterning, vertebral identity, and development of posterior structures.

Authors: S Abu-Abed; P Dollé; D Metzger; B Beckett; P Chambon; M Petkovich
Journal: Genes Dev Date: 2001-01-15 Impact factor: 11.361

5. The retinoic acid-inactivating enzyme CYP26 is essential for establishing an uneven distribution of retinoic acid along the anterio-posterior axis within the mouse embryo.

Authors: Y Sakai; C Meno; H Fujii; J Nishino; H Shiratori; Y Saijoh; J Rossant; H Hamada
Journal: Genes Dev Date: 2001-01-15 Impact factor: 11.361

6. T (Brachyury) is a direct target of Wnt3a during paraxial mesoderm specification.

Authors: T P Yamaguchi; S Takada; Y Yoshikawa; N Wu; A P McMahon
Journal: Genes Dev Date: 1999-12-15 Impact factor: 11.361

7. Colonic hamartoma development by anomalous duplication in Cdx2 knockout mice.

Authors: Y Tamai; R Nakajima; T Ishikawa; K Takaku; M F Seldin; M M Taketo
Journal: Cancer Res Date: 1999-06-15 Impact factor: 12.701

8. Murine fibroblast growth factor receptor 1alpha isoforms mediate node regression and are essential for posterior mesoderm development.

Authors: X Xu; C Li; K Takahashi; H C Slavkin; L Shum; C X Deng
Journal: Dev Biol Date: 1999-04-15 Impact factor: 3.582

9. Reprogramming of intestinal differentiation and intercalary regeneration in Cdx2 mutant mice.

Authors: F Beck; K Chawengsaksophak; P Waring; R J Playford; J B Furness
Journal: Proc Natl Acad Sci U S A Date: 1999-06-22 Impact factor: 11.205

10. Transducing positional information to the Hox genes: critical interaction of cdx gene products with position-sensitive regulatory elements.

Authors: J Charité; W de Graaff; D Consten; M J Reijnen; J Korving; J Deschamps
Journal: Development Date: 1998-11 Impact factor: 6.868

111 in total

1. Molecular basis for Flk1 expression in hemato-cardiovascular progenitors in the mouse.

Authors: Hiroyuki Ishitobi; Asami Wakamatsu; Fang Liu; Takuya Azami; Michito Hamada; Ken Matsumoto; Hiroshi Kataoka; Makoto Kobayashi; Kyunghee Choi; Shin-ichi Nishikawa; Satoru Takahashi; Masatsugu Ema
Journal: Development Date: 2011-11-09 Impact factor: 6.868

Review 2. The role of Cdx genes in the mammalian gut.

Authors: F Beck
Journal: Gut Date: 2004-10 Impact factor: 23.059

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

Authors: Guangming Wu; Luca Gentile; Jeong Tae Do; Tobias Cantz; Julien Sutter; Katherina Psathaki; Marcos J Araúzo-Bravo; Claudia Ortmeier; Hans R Schöler
Journal: Stem Cells Dev Date: 2010-10-12 Impact factor: 3.272

4. Initiation of trophectoderm lineage specification in mouse embryos is independent of Cdx2.

Authors: Guangming Wu; Luca Gentile; Takuya Fuchikami; Julien Sutter; Katherina Psathaki; Telma C Esteves; Marcos J Araúzo-Bravo; Claudia Ortmeier; Gaby Verberk; Kuniya Abe; Hans R Schöler
Journal: Development Date: 2010-12 Impact factor: 6.868

5. Ancestral role of caudal genes in axis elongation and segmentation.

Authors: Tijana Copf; Reinhard Schröder; Michalis Averof
Journal: Proc Natl Acad Sci U S A Date: 2004-12-14 Impact factor: 11.205

Review 6. Regulation of gene expression in mouse embryos and its embryonic cells through RNAi.

Authors: Karin Lykke-Andersen
Journal: Mol Biotechnol Date: 2006-10 Impact factor: 2.695

7. The mouse KRAB zinc-finger protein CHATO is required in embryonic-derived tissues to control yolk sac and placenta morphogenesis.

Authors: Maho Shibata; María J García-García
Journal: Dev Biol Date: 2010-11-19 Impact factor: 3.582