Christian Larochelle scite author profile

Christian Larochelle

2Publications

72Citation Statements Received

130Citation Statements Given

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123

Affiliations

Centre Hospitalier Universitaire de Québec, Université Laval, Hôtel-Dieu de Québec

Publications

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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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Multiple Promoters and Alternative Splicing: Hoxa5 Transcriptional Complexity in the Mouse Embryo

et al. 2010

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BackgroundThe genomic organization of Hox clusters is fundamental for the precise spatio-temporal regulation and the function of each Hox gene, and hence for correct embryo patterning. Multiple overlapping transcriptional units exist at the Hoxa5 locus reflecting the complexity of Hox clustering: a major form of 1.8 kb corresponding to the two characterized exons of the gene and polyadenylated RNA species of 5.0, 9.5 and 11.0 kb. This transcriptional intricacy raises the question of the involvement of the larger transcripts in Hox function and regulation.Methodology/Principal FindingsWe have undertaken the molecular characterization of the Hoxa5 larger transcripts. They initiate from two highly conserved distal promoters, one corresponding to the putative Hoxa6 promoter, and a second located nearby Hoxa7. Alternative splicing is also involved in the generation of the different transcripts. No functional polyadenylation sequence was found at the Hoxa6 locus and all larger transcripts use the polyadenylation site of the Hoxa5 gene. Some larger transcripts are potential Hoxa6/Hoxa5 bicistronic units. However, even though all transcripts could produce the genuine 270 a.a. HOXA5 protein, only the 1.8 kb form is translated into the protein, indicative of its essential role in Hoxa5 gene function. The Hoxa6 mutation disrupts the larger transcripts without major phenotypic impact on axial specification in their expression domain. However, Hoxa5-like skeletal anomalies are observed in Hoxa6 mutants and these defects can be explained by the loss of expression of the 1.8 kb transcript. Our data raise the possibility that the larger transcripts may be involved in Hoxa5 gene regulation.SignificanceOur observation that the Hoxa5 larger transcripts possess a developmentally-regulated expression combined to the increasing sum of data on the role of long noncoding RNAs in transcriptional regulation suggest that the Hoxa5 larger transcripts may participate in the control of Hox gene expression.

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