Your search keyword '"Esquerré, Diane"' showing total 4 results

1. Identification of a t(3;4)(p1.3;q1.5) translocation breakpoint in pigs using somatic cell hybrid mapping and high-resolution mate-pair sequencing

Author

Fève, Katia, Foissac, Sylvain, Pinton, Alain, Mompart, Florence, Esquerré, Diane, Faraut, Thomas, Yerle, Martine, Riquet, Juliette, Génétique Physiologie et Systèmes d'Elevage (GenPhySE ), École nationale supérieure agronomique de Toulouse [ENSAT]-Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées

Subjects

Swine, reciprocal translocation, lcsh:Medicine, population, Artificial Gene Amplification and Extension, Polymerase Chain Reaction, Translocation, Genetic, Database and Informatics Methods, ADAMTS Proteins, chromosome, lcsh:Science, hybridization, Mammals, Chromosome Biology, Eukaryota, Chromosome Mapping, High-Throughput Nucleotide Sequencing, Genomics, Chromosomal Aberrations, BAC cloning, adamtsl4, Vertebrates, Sequence Analysis, Autre (Sciences du Vivant), Research Article, [SDV.OT]Life Sciences [q-bio]/Other [q-bio.OT], isolated ectopia lentis, mutation, gene, cytogenetic, biogenesis, Bioinformatics, Research and Analysis Methods, Vector cloning, Genetics, Animals, Molecular Biology Techniques, Molecular Biology, Sequence Assembly Tools, Models, Genetic, Gene Mapping, lcsh:R, Organisms, Biology and Life Sciences, Computational Biology, Cell Biology, Genome Analysis, Chromosomes, Mammalian, Chromosomal Translocations, Amniotes, lcsh:Q, Sequence Alignment, Cloning

Abstract

International audience; Reciprocal translocations are the most frequently occurring constitutional structural rear-rangements in mammalian genomes. In phenotypically normal pigs, an incidence of 1/200 is estimated for such rearrangements. Even if constitutional translocations do not necessarily induce defects and diseases, they are responsible for significant economic losses in domestic animals due to reproduction failures. Over the last 30 years, advances in molecular and cytogenetic technologies have led to major improvements in the resolution of the characterization of translocation events. Characterization of translocation breakpoints helps to decipher the mechanisms that lead to such rearrangements and the functions of the genes that are involved in the translocation. Here, we describe the fine characterization of a reciprocal translocation t(3;4)(p1.3;q1.5) detected in a pig line. The breakpoint was identified at the base-pair level using a positional cloning and chromosome walking strategy in somatic cell hybrids that were generated from an animal that carries this translocation. We show that this translocation occurs within the ADAMTSL4 gene and results in a loss of expression in homozygous carriers. In addition, by taking this translocation as a model, we used a whole-genome next-generation mate-pair sequencing approach on pooled individuals to evaluate this strategy for high-throughput screening of structural rearrangements.

Published

2017

2. Re-Sequencing Data for Refining Candidate Genes and Polymorphisms in QTL Regions Affecting Adiposity in Chicken.

Author

Roux, Pierre-François, Boutin, Morgane, Désert, Colette, Djari, Anis, Esquerré, Diane, Klopp, Christophe, Lagarrigue, Sandrine, and Demeure, Olivier

Subjects

OBESITY, NUCLEOTIDE sequence, GENOMES, CHICKENS, ANIMAL experimentation

Abstract

In this study, we propose an approach aiming at fine-mapping adiposity QTL in chicken, integrating whole genome re-sequencing data. First, two QTL regions for adiposity were identified by performing a classical linkage analysis on 1362 offspring in 11 sire families obtained by crossing two meat-type chicken lines divergently selected for abdominal fat weight. Those regions, located on chromosome 7 and 19, contained a total of 77 and 84 genes, respectively. Then, SNPs and indels in these regions were identified by re-sequencing sires. Considering issues related to polymorphism annotations for regulatory regions, we focused on the 120 and 104 polymorphisms having an impact on protein sequence, and located in coding regions of 35 and 42 genes situated in the two QTL regions. Subsequently, a filter was applied on SNPs considering their potential impact on the protein function based on conservation criteria. For the two regions, we identified 42 and 34 functional polymorphisms carried by 18 and 24 genes, and likely to deeply impact protein, including 3 coding indels and 4 nonsense SNPs. Finally, using gene functional annotation, a short list of 17 and 4 polymorphisms in 6 and 4 functional genes has been defined. Even if we cannot exclude that the causal polymorphisms may be located in regulatory regions, this strategy gives a complete overview of the candidate polymorphisms in coding regions and prioritize them on conservation- and functional-based arguments. [ABSTRACT FROM AUTHOR]

Published

2014

3. Whole-genome sequencing of 234 bulls facilitates mapping of monogenic and complex traits in cattle.

Author

Daetwyler, Hans D, Capitan, Aurélien, Pausch, Hubert, Stothard, Paul, van Binsbergen, Rianne, Brøndum, Rasmus F, Liao, Xiaoping, Djari, Anis, Rodriguez, Sabrina C, Grohs, Cécile, Esquerré, Diane, Bouchez, Olivier, Rossignol, Marie-Noëlle, Klopp, Christophe, Rocha, Dominique, Fritz, Sébastien, Eggen, André, Bowman, Phil J, Coote, David, and Chamberlain, Amanda J

Subjects

CATTLE genetics, ANIMAL genome mapping, NUCLEOTIDE sequencing, ANIMAL genetics research, GENOMICS

Abstract

The 1000 bull genomes project supports the goal of accelerating the rates of genetic gain in domestic cattle while at the same time considering animal health and welfare by providing the annotated sequence variants and genotypes of key ancestor bulls. In the first phase of the 1000 bull genomes project, we sequenced the whole genomes of 234 cattle to an average of 8.3-fold coverage. This sequencing includes data for 129 individuals from the global Holstein-Friesian population, 43 individuals from the Fleckvieh breed and 15 individuals from the Jersey breed. We identified a total of 28.3 million variants, with an average of 1.44 heterozygous sites per kilobase for each individual. We demonstrate the use of this database in identifying a recessive mutation underlying embryonic death and a dominant mutation underlying lethal chrondrodysplasia. We also performed genome-wide association studies for milk production and curly coat, using imputed sequence variants, and identified variants associated with these traits in cattle. [ABSTRACT FROM AUTHOR]

Published

2014

4. Extensive Expression Differences along Porcine Small Intestine Evidenced by Transcriptome Sequencing.

Author

Mach, Núria, Berri, Mustapha, Esquerré, Diane, Chevaleyre, Claire, Lemonnier, Gaëtan, Billon, Yvon, Lepage, Patricia, Oswald, Isabelle P., Doré, Joël, Rogel-Gaillard, Claire, and Estellé, Jordi

Subjects

SMALL intestine, GENE expression, GENETIC transcription, NUCLEOTIDE sequence, CELLULAR signal transduction, CELL growth, CELL proliferation

Abstract

The aim of this study was to analyse gene expression along the small intestine (duodenum, jejunum, ileum) and in the ileal Peyer's patches in four young pigs with no clinical signs of disease by transcriptome sequencing. Multidimensional scaling evidenced that samples clustered by tissue type rather than by individual, thus prefiguring a relevant scenario to draw tissue-specific gene expression profiles. Accordingly, 1,349 genes were found differentially expressed between duodenum and jejunum, and up to 3,455 genes between duodenum and ileum. Additionally, a considerable number of differentially expressed genes were found by comparing duodenum (7,027 genes), jejunum (6,122 genes), and ileum (6,991 genes) with ileal Peyer's patches tissue. Functional analyses revealed that most of the significant differentially expressed genes along small intestinal tissues were involved in the regulation of general biological processes such as cell development, signalling, growth and proliferation, death and survival or cell function and maintenance. These results suggest that the intrinsic large turnover of intestinal tissues would have local specificities at duodenum, ileum and jejunum. In addition, in concordance with their biological function, enteric innate immune pathways were overrepresented in ileal Peyer's patches. The reported data provide an expression map of the cell pathway variation in the different small intestinal tissues. Furthermore, expression levels measured in healthy individuals could help to understand changes in gene expression that occur in dysbiosis or pathological states. [ABSTRACT FROM AUTHOR]

Published

2014