Genetic analysis of a <i>Hoxd-12</i> regulatory element reveals global versus local modes of controls in the <i>HoxD</i> complex

Hérault, Yann; Beckers, Johannes; Kondo, Takashi; Fraudeau, N.; Duboule, Denis

doi:10.1242/dev.125.9.1669

Development

1998

DOI: 10.1242/dev.125.9.1669

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Genetic analysis of a Hoxd-12 regulatory element reveals global versus local modes of controls in the HoxD complex

Yann Hérault

Johannes Beckers

Takashi Kondo

et al.

Abstract: Vertebrate Hoxd genes are essential determinants of limb morphogenesis. In order to understand the genetic control of their complex expression patterns, we have used a combined approach involving interspecies sequence alignments in parallel with transgenic analyses, followed by in vivo mutagenesis. Here, we report on the identification of a regulatory element that is located in the vicinity of the Hoxd-12 gene. While this element is well conserved in tetrapods, little sequence similarity was scored when compar… Show more

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Cited by 34 publications

References 41 publications

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Genetic analysis of a conserved sequence in theHoxD complex: Regulatory redundancy or limitations of the transgenic approach?

Beckers

Duboule

1998

Dev. Dyn.

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Extensive sequencing in the HoxD complex of several vertebrate species has revealed a set of conserved DNA sequences interspersed between neighboring Hox genes. Their high degree of conservation strongly suggested that they are used for regulatory purposes, a hypothesis that was largely confirmed by using ''classical transgenesis'' or in vivo mutagenesis through the embryonic stem (ES) cell technology. Here, we show that this is not always the case. We report that the deletion of a conserved regulatory sequence located in the HoxD complex gives different results, depending on the transgenic approach that was used. In ''conventional'' transgenesis, this sequence was necessary for proper expression in a subdomain of the developing limb. However, a deletion of this sequence in complexo did not confirm this effect, thereby creating an important discrepancy between the classical transgenic and the ES cell-based, targeted mutagenesis. This unexpected observation may show the limitations of the former technology. Alternatively, it could illustrate a redundancy in regulatory circuits and, thus, justify the combination of parallel strategies.

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Genetic analysis of a conserved sequence in theHoxD complex: Regulatory redundancy or limitations of the transgenic approach?

Beckers

Duboule

1998

Dev. Dyn.

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Multiplecis-acting regulatory regions are required for restricted spatio-temporalHoxa5 gene expression

et al. 1999

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Genetic analyses have revealed the essential role of the murine Hoxa5 gene for the correct specification of the cervical and upper thoracic region of the skeleton, and for the normal organogenesis and function of the respiratory tract, both structures expressing Hoxa5 during embryogenesis. To understand how the expression domains of the Hoxa5 gene are established during development, we have analyzed the cis‐acting control regions mediating Hoxa5 gene expression using a transgenic approach. Four transcripts are derived from the Hoxa5 locus. The shortest and most abundant one displays a specific spatio‐temporal profile of expression at earlier stages and in more anterior structures along the embryonic axis than the larger forms. We established that an 11.1 kilobase pair (kb) genomic fragment, extending from position −3.8 kb to +7.3 kb relative to Hoxa5 transcription initiation site, was sufficient to reproduce the temporal expression and substantially reconstitute the spatial pattern of the major Hoxa5 transcript. By deletion analyses, we identified a 2.1 kb fragment located downstream of the Hoxa5 gene that possesses mesodermal enhancer activity. Overall, the findings demonstrate that cis‐acting regulatory elements essential for the correct expression of the major Hoxa5 transcript are located both upstream and downstream of the Hoxa5 coding sequences. Dev Dyn 1999;214:127–140. © 1999 Wiley‐Liss, Inc.

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Perspectives on the evolutionary origin of tetrapod limbs

Capdevila

Belmonte

2000

J. Exp. Zool.

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The study of the origin and evolution of the tetrapod limb has benefited enormously from the confluence of molecular and paleontological data. In the last two decades, our knowledge of the basic molecular mechanisms that control limb development has grown exponentially, and developmental biologists now have the possibility of combining molecular data with many available descriptions of the fossil record of vertebrate fins and limbs. This synthesis of developmental and evolutionary biology has the potential to unveil the sequence of molecular changes that culminated in the adoption of the basic tetrapod limb plan. J. Exp. Zool. (Mol. Dev. Evol.) 288:287–303, 2000. © 2000 Wiley‐Liss, Inc.

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Genetic analysis of a Hoxd-12 regulatory element reveals global versus local modes of controls in the HoxD complex

Cited by 34 publications

References 41 publications

Genetic analysis of a conserved sequence in theHoxD complex: Regulatory redundancy or limitations of the transgenic approach?

Genetic analysis of a conserved sequence in theHoxD complex: Regulatory redundancy or limitations of the transgenic approach?

Multiplecis-acting regulatory regions are required for restricted spatio-temporalHoxa5 gene expression

Perspectives on the evolutionary origin of tetrapod limbs

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