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Literature DB >> 16166377

Hox genes specify vertebral types in the presomitic mesoderm.

Marta Carapuço¹, Ana Nóvoa, Nicoletta Bobola, Moisés Mallo.

Abstract

We show here that expression of Hoxa10 in the presomitic mesoderm is sufficient to confer a Hox group 10 patterning program to the somite, producing vertebrae without ribs, an effect not achieved when Hoxa10 is expressed in the somites. In addition, Hox group 11-dependent vertebral sacralization requires Hoxa11 expression in the presomitic mesoderm, while their caudal differentiation requires that Hoxa11 is expressed in the somites. Therefore, Hox gene patterning activity is different in the somites and presomitic mesoderm, the latter being very prominent for Hox gene-mediated patterning of the axial skeleton. This is further supported by our finding that inactivation of Gbx2, a homeobox-containing gene expressed in the presomitic mesoderm but not in the somites, produced Hox-like phenotypes in the axial skeleton without affecting Hox gene expression.

Entities: Gene

Mesh：

Substances：
Homeodomain Proteins

Year: 2005 PMID： 16166377 PMCID： PMC1221883 DOI： 10.1101/gad.338705

Source DB: PubMed Journal: Genes Dev ISSN： 0890-9369 Impact factor: 11.361

30 in total

Review 1. A clock-work somite.

Authors: K J Dale; O Pourquié
Journal: Bioessays Date: 2000-01 Impact factor: 4.345

2. Localized and transient transcription of Hox genes suggests a link between patterning and the segmentation clock.

Authors: J Zákány; M Kmita; P Alarcon; J L de la Pompa; D Duboule
Journal: Cell Date: 2001-07-27 Impact factor: 41.582

3. 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

4. Reversible gene inactivation in the mouse.

Authors: Moisés Mallo; Benoît Kanzler; Sabine Ohnemus
Journal: Genomics Date: 2003-04 Impact factor: 5.736

5. Mesenchymal patterning by Hoxa2 requires blocking Fgf-dependent activation of Ptx1.

Authors: Nicoletta Bobola; Marta Carapuço; Sabine Ohnemus; Benoît Kanzler; Andreas Leibbrandt; Annette Neubüser; Jacques Drouin; Moisés Mallo
Journal: Development Date: 2003-08 Impact factor: 6.868

6. Segmental identity can change independently in the hindbrain and rhombencephalic neural crest.

Authors: M Mallo; I Brändlin
Journal: Dev Dyn Date: 1997-10 Impact factor: 3.780

7. Distinct regulatory elements direct delta1 expression in the nervous system and paraxial mesoderm of transgenic mice.

Authors: J Beckers; A Caron; M Hrabé de Angelis; S Hans; J A Campos-Ortega; A Gossler
Journal: Mech Dev Date: 2000-07 Impact factor: 1.882

8. Hox10 and Hox11 genes are required to globally pattern the mammalian skeleton.

Authors: Deneen M Wellik; Mario R Capecchi
Journal: Science Date: 2003-07-18 Impact factor: 47.728

9. Axial skeletal patterning in mice lacking all paralogous group 8 Hox genes.

Authors: E van den Akker; C Fromental-Ramain; W de Graaff; H Le Mouellic; P Brûlet; P Chambon; J Deschamps
Journal: Development Date: 2001-05 Impact factor: 6.868

10. Cdx1 and Cdx2 have overlapping functions in anteroposterior patterning and posterior axis elongation.

Authors: Eric van den Akker; Sylvie Forlani; Kallayanee Chawengsaksophak; Wim de Graaff; Felix Beck; Barbara I Meyer; Jacqueline Deschamps
Journal: Development Date: 2002-05 Impact factor: 6.868

63 in total

1. The synchrony and cyclicity of developmental events.

Authors: Yumiko Saga
Journal: Cold Spring Harb Perspect Biol Date: 2012-04-01 Impact factor: 10.005

2. Independent regulation of vertebral number and vertebral identity by microRNA-196 paralogs.

Authors: Siew Fen Lisa Wong; Vikram Agarwal; Jennifer H Mansfield; Nicolas Denans; Matthew G Schwartz; Haydn M Prosser; Olivier Pourquié; David P Bartel; Clifford J Tabin; Edwina McGlinn
Journal: Proc Natl Acad Sci U S A Date: 2015-08-17 Impact factor: 11.205

Hox genes specify vertebral types in the presomitic mesoderm.

Review 1. A clock-work somite.

2. Localized and transient transcription of Hox genes suggests a link between patterning and the segmentation clock.

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

4. Reversible gene inactivation in the mouse.

5. Mesenchymal patterning by Hoxa2 requires blocking Fgf-dependent activation of Ptx1.

6. Segmental identity can change independently in the hindbrain and rhombencephalic neural crest.

7. Distinct regulatory elements direct delta1 expression in the nervous system and paraxial mesoderm of transgenic mice.

8. Hox10 and Hox11 genes are required to globally pattern the mammalian skeleton.

9. Axial skeletal patterning in mice lacking all paralogous group 8 Hox genes.

10. Cdx1 and Cdx2 have overlapping functions in anteroposterior patterning and posterior axis elongation.

1. The synchrony and cyclicity of developmental events.

2. Independent regulation of vertebral number and vertebral identity by microRNA-196 paralogs.

3. Hoxc8 initiates an ectopic mammary program by regulating Fgf10 and Tbx3 expression and Wnt/β-catenin signaling.

4. cis-regulatory change associated with snake body plan evolution.

5. Changes in Hox genes' structure and function during the evolution of the squamate body plan.

6. Role of a polymorphism in a Hox/Pax-responsive enhancer in the evolution of the vertebrate spine.

7. Genetics of Skeletal Evolution in Unusually Large Mice from Gough Island.

8. Developmental control of segment numbers in vertebrates.

9. Axial and appendicular skeletal transformations, ligament alterations, and motor neuron loss in Hoxc10 mutants.

10. Differential axial requirements for lunatic fringe and Hes7 transcription during mouse somitogenesis.