Your search keyword '"Morisson, Mireille"' showing total 20 results

1. A duck RH panel and its potential for assisting NGS genome assembly.

Author

Rao, Man, Morisson, Mireille, Faraut, Thomas, Bardes, Suzanne, Fève, Katia, Labarthe, Emmanuelle, Fillon, Valérie, Huang, Yinhua, Li, Ning, and Vignal, Alain

Subjects

*CHROMOSOMES, *COST, *EUKARYOTES, *DUCKS, *FIBROBLASTS

Abstract

Background: Owing to the low cost of the high throughput Next Generation Sequencing (NGS) technology, more and more species have been and will be sequenced. However, de novo assemblies of large eukaryotic genomes thus produced are composed of a large number of contigs and scaffolds of medium to small size, having no chromosomal assignment. Radiation hybrid (RH) mapping is a powerful tool for building whole genome maps and has been used for several animal species, to help assign sequence scaffolds to chromosomes and determining their order. Results: We report here a duck whole genome RH panel obtained by fusing female duck embryonic fibroblasts irradiated at a dose of 6,000 rads, with HPRT-deficient Wg3hCl2 hamster cells. The ninety best hybrids, having an average retention of 23.6% of the duck genome, were selected for the final panel. To allow the genotyping of large numbers of markers, as required for whole genome mapping, without having to cultivate the hybrid clones on a large scale, three different methods involving Whole Genome Amplification (WGA) and/or scaling down PCR volumes by using the Fluidigm BioMarkTM Integrated Fluidic Circuits (IFC) Dynamic ArrayTM for genotyping were tested. RH maps of APL12 and APL22 were built, allowing the detection of intrachromosomal rearrangements when compared to chicken. Finally, the panel proved useful for checking the assembly of sequence scaffolds and for mapping EST located on one of the smallest microchromosomes. Conclusion: The Fluidigm BioMarkTM Integrated Fluidic Circuits (IFC) Dynamic ArrayTM genotyping by quantitative PCR provides a rapid and cost-effective method for building RH linkage groups. Although the vast majority of genotyped markers exhibited a picture coherent with their associated scaffolds, a few of them were discordant, pinpointing potential assembly errors. Comparative mapping with chicken chromosomes GGA21 and GGA11 allowed the detection of the first chromosome rearrangements on microchromosomes between duck and chicken. As in chicken, the smallest duck microchromosomes appear missing in the assembly and more EST data will be needed for mapping them. Altogether, this underlines the added value of RH mapping to improve genome assemblies. [ABSTRACT FROM AUTHOR]

Published

2012

2. Development of a gene-based radiation hybrid map of chicken Chromosome 7 and comparison to human and mouse.

Author

Morisson, Mireille, Jiguet-Jiglaire, Carine, Leroux, Sophie, Faraut, Thomas, Bardes, Suzanne, Feve, Katia, Genet, Carine, Pitel, Frérique, Milan, Denis, and Vignal, Alain

Subjects

*CHROMOSOMES, *GENETICS, *GENOMES, *CHICKENS, *HUMAN beings, *MICE

Abstract

To validate the ChickRH6 whole-genome radiation hybrid (WGRH) panel, we constructed a map of chicken Chromosome 7 based on 19 microsatellite markers from the genetic map and 76 ESTs (expressed sequence tags), whose efficient targeted development was made possible by using the ICCARE software. This high-density radiation hybrid (RH) map of a chicken macrochromosome gives us indications on characteristics of ChickRH6. The potential resolution of the panel is 325 kb and the practical resolution of our framework map is 1.3 Mb. Based on these results, a complete framework map of the chicken genome would comprise 1000 markers. The marker order is in good agreement with the genetic map and comparison with the human and mouse sequence maps revealed a number of internal rearrangements. [ABSTRACT FROM AUTHOR]

Published

2004

3. Fasting/refeeding: an experimental model to study the impact of early thermal manipulation on hepatic metabolism in mule ducks.

Author

Andrieux, Charlotte, Marchand, Michaël, Larroquet, Laurence, Veron, Vincent, Biasutti, Sandra, Barrieu, Josette, Morganx, Philippe, Morisson, Mireille, Coustham, Vincent, Panserat, Stéphane, and Houssier, Marianne

Subjects

*DUCKS, *SATURATED fatty acids, *FASTING, *METABOLISM, *DRUG target

Abstract

An increase in egg incubation temperature was previously shown to enhance the metabolism of mule ducks and increase liver fattening after overfeeding, through a metabolic programming mechanism. Here, we examined whether fasting (F) followed by refeeding (RF) in "-wk-old mule ducks could become an accelerated model to study the mechanisms of metabolic programming following embryonic thermal manipulation. This study investigated the hepatic response of mule ducks subjected to 23 h of fasting and 1 h of refeeding, in control or thermally programmed animals (with an increase of 1°C, 16 h per day from days 13 to 27 of embryogenesis). Liver weight and energy composition, hepatocyte structure, plasma parameters, and gene expression levels were measured at 1, 2, and 4 h after RF. All these parameters were strongly affected by RF, whereas significant impacts of embryonic programming were measured in cell size (+1 mm on average), lipid composition (+ 4.2% of saturated fatty acids 4 h after the meal), and relative gene expressions (including HK1, SCD1, ELOVL6, and FASN). In addition to confirming previously identified molecular targets of thermal manipulation, this study revealed new ones, thanks to kinetic sampling after RF. Finally, the detailed description of the impact of the F/RF challenge on the liver structure, composition, and gene expression, but also on plasma parameters allowed us to draw a parallel with these same traits measured during overfeeding. This comparative analysis suggests that this protocol could become a pertinent model to study the mechanisms involved in embryonic liver thermal programming, without overfeeding. [ABSTRACT FROM AUTHOR]

Published

2023

4. Maternal dietary methionine restriction alters hepatic expression of one-carbon metabolism and epigenetic mechanism genes in the ducklings.

Author

Sécula, Aurélie, Bluy, Lisa E., Chapuis, Hervé, Bonnet, Agnès, Collin, Anne, Gress, Laure, Cornuez, Alexis, Martin, Xavier, Bodin, Loys, Bonnefont, Cécile M. D., and Morisson, Mireille

Subjects

*METHIONINE, *DUCKLINGS, *EPIGENETICS, *FREE fatty acids, *ALANINE aminotransferase, *GENES, *METABOLISM, *ENERGY metabolism

Abstract

Background: Embryonic and fetal development is very susceptible to the availability of nutrients that can interfere with the setting of epigenomes, thus modifying the main metabolic pathways and impacting the health and phenotypes of the future individual. We have previously reported that a 38% reduction of the methyl donor methionine in the diet of 30 female ducks reduced the body weight of their 180 mule ducklings compared to that of 190 ducklings from 30 control females. The maternal methionine-restricted diet also altered plasmatic parameters in 30 of their ducklings when compared to that of 30 ducklings from the control group. Thus, their plasma glucose and triglyceride concentrations were higher while their free fatty acid level and alanine transaminase activity were decreased. Moreover, the hepatic transcript level of 16 genes involved in pathways related to energy metabolism was significantly different between the two groups of ducklings. In the present work, we continued studying the liver of these newly hatched ducklings to explore the impact of the maternal dietary methionine restriction on the hepatic transcript level of 70 genes mostly involved in one-carbon metabolism and epigenetic mechanisms. Results: Among the 12 genes (SHMT1, GART, ATIC, FTCD, MSRA, CBS, CTH, AHCYL1, HSBP1, DNMT3, HDAC9 and EZH2) identified as differentially expressed between the two maternal diet groups (p-value < 0.05), 3 of them were involved in epigenetic mechanisms. Ten other studied genes (MTR, GLRX, MTHFR, AHCY, ADK, PRDM2, EEF1A1, ESR1, PLAGL1, and WNT11) tended to be differently expressed (0.05 < p-value < 0.10). Moreover, the maternal dietary methionine restriction altered the number and nature of correlations between expression levels of differential genes for one-carbon metabolism and epigenetic mechanisms, expression levels of differential genes for energy metabolism, and phenotypic traits of ducklings. Conclusion: This avian model showed that the maternal dietary methionine restriction impacted both the mRNA abundance of 22 genes involved in one-carbon metabolism or epigenetic mechanisms and the mRNA abundance of 16 genes involved in energy metabolism in the liver of the newly hatched offspring, in line with the previously observed changes in their phenotypic traits. [ABSTRACT FROM AUTHOR]

Published

2022

5. Maternal dietary methionine restriction alters the expression of energy metabolism genes in the duckling liver.

Author

Sécula, Aurélie, Chapuis, Hervé, Collin, Anne, Bluy, Lisa E., Bonnet, Agnès, Bodin, Loys, Gress, Laure, Cornuez, Alexis, Martin, Xavier, Bonnefont, Cécile M. D., and Morisson, Mireille

Subjects

*METHIONINE, *ENERGY metabolism, *DUCKLINGS, *AMINO acid transport, *AMINO acid metabolism, *EMBRYOLOGY, *FREE fatty acids

Abstract

Background: In mammals, the nutritional status experienced during embryonic development shapes key metabolic pathways and influences the health and phenotype of the future individual, a phenomenon known as nutritional programming. In farmed birds as well, the quantity and quality of feed offered to the dam can impact the phenotype of the offspring. We have previously reported that a 38% reduction in the intake of the methyl donor methionine in the diet of 30 female ducks during the growing and laying periods - from 10 to 51 weeks of age - reduced the body weight of their 180 mule ducklings compared to that of 190 ducklings from 30 control females. The maternal dietary methionine restriction also altered the hepatic energy metabolism studied in 30 of their ducklings. Thus, their plasma glucose and triglyceride concentrations were higher while their plasma free fatty acid level was lower than those measured in the plasma of 30 ducklings from the control group. The objective of this new study was to better understand how maternal dietary methionine restriction affected the livers of their newly hatched male and female ducklings by investigating the hepatic expression levels of 100 genes primarily targeting energy metabolism, amino acid transport, oxidative stress, apoptotic activity and susceptibility to liver injury. Results: Sixteen of the genes studied were differentially expressed between the ducklings from the two groups. Maternal dietary methionine restriction affected the mRNA levels of genes involved in different pathways related to energy metabolism such as glycolysis, lipogenesis or electron transport. Moreover, the mRNA levels of the nuclear receptors PPARGC1B, PPARG and RXRA were also affected. Conclusions: Our results show that the 38% reduction in methionine intake in the diet of female ducks during the growing and egg-laying periods impacted the liver transcriptome of their offspring, which may explain the previously observed differences in their liver energy metabolism. These changes in mRNA levels, together with the observed phenotypic data, suggest an early modulation in the establishment of metabolic pathways. [ABSTRACT FROM AUTHOR]

Published

2022

6. A radiation hybrid map of chicken Chromosome 4 A RADIATION HYBRID MAP OF CHICKEN CHR 4.

Author

Rabie, Tarik S.K.M., Crooijmans, Richard P.M.A., Morisson, Mireille, Andryszkiewicz, Joanna, van der Poel, Jan J., Vignal, Alain, and Groenen, Martien A.M.

Subjects

*GENETICS, *RADIATION, *MEDICAL technology, *CHROMOSOMES, *CYTOTAXONOMY, *KARYOKINESIS, *CROSSING over (Genetics)

Abstract

The mapping resolution of the physical map for chicken Chromosome 4 (GGA4) was improved by a combination of radiation hybrid (RH) mapping and bacterial artificial chromosome (BAC) mapping. The ChickRH6 hybrid panel was used to construct an RH map of GGA4. Eleven microsatellites known to be located on GGA4 were included as anchors to the genetic linkage map for this chromosome. Based on the known conserved synteny between GGA4 and human Chromosomes 4 and X, sequences were identified for the orthologous chicken genes from these human chromosomes by BLAST analysis. These sequences were subsequently used for the development of STS markers to be typed on the RH panel. Using a logarithm of the odds (LOD) threshold of 5.0, nine linkage groups could be constructed which were aligned with the genetic linkage map of this chromosome. The resulting RH map consisted of the 11 microsatellite markers and 50 genes. To further increase the number of genes on the map and to provide additional anchor points for the physical BAC map of this chromosome, BAC clones were identified for 22 microsatellites and 99 genes. The combined RH and BAC mapping approach resulted in the mapping of 61 genes on GGA4 increasing the resolution of the chicken–human comparative map for this chromosome. This enhanced comparative mapping resolution enabled the identification of multiple rearrangements between GGA4 and human Chromosomes 4q and Xp. [ABSTRACT FROM AUTHOR]

Published

2004

7. A high-resolution radiation hybrid map of chicken chromosome 5 and comparison with human chromosomes.

Author

Pitel, Frédérique, Abasht, Behnam, Morisson, Mireille, Crooijmans, Richard P. M. A., Vignoles, Florence, Leroux, Sophie, Feve, Katia, Bardes, Suzanne, Milan, Denis, Lagarrigue, Sandrine, Groenen, Martien A. M., Douaire, Madeleine, and Vignal, Alain

Subjects

*RADIATION, *CHROMOSOMES, *HUMAN chromosomes, *BACTERIAL artificial chromosomes, *GENOMES, *ANIMAL genome mapping, *HUMAN genome

Abstract

Background: The resolution of radiation hybrid (RH) maps is intermediate between that of the genetic and BAC (Bacterial Artificial Chromosome) contig maps. Moreover, once framework RH maps of a genome have been constructed, a quick location of markers by simple PCR on the RH panel is possible. The chicken ChickRH6 panel recently produced was used here to construct a high resolution RH map of chicken GGA5. To confirm the validity of the map and to provide valuable comparative mapping information, both markers from the genetic map and a high number of ESTs (Expressed Sequence Tags) were used. Finally, this RH map was used for testing the accuracy of the chicken genome assembly for chromosome 5. Results: A total of 169 markers (21 microsatellites and 148 ESTs) were typed on the ChickRH6 RH panel, of which 134 were assigned to GGA5. The final map is composed of 73 framework markers extending over a 1315.6 cR distance. The remaining 61 markers were placed alongside the framework markers within confidence intervals. Conclusion: The high resolution framework map obtained in this study has markers covering the entire chicken chromosome 5 and reveals the existence of a high number of rearrangements when compared to the human genome. Only two discrepancies were observed in relation to the sequence assembly recently reported for this chromosome. [ABSTRACT FROM AUTHOR]

Published

2004

8. Ontogeny of hepatic metabolism in mule ducks highlights different gene expression profiles between carbohydrate and lipid metabolic pathways.

Author

Massimino, William, Davail, Stéphane, Secula, Aurélie, Andrieux, Charlotte, Bernadet, Marie-Dominique, Pioche, Tracy, Ricaud, Karine, Gontier, Karine, Morisson, Mireille, Collin, Anne, Panserat, Stéphane, and Houssier, Marianne

Abstract

Background: The production of foie gras involves different metabolic pathways in the liver of overfed ducks such as lipid synthesis and carbohydrates catabolism, but the establishment of these pathways has not yet been described with precision during embryogenesis. The early environment can have short- and long-term impacts on the physiology of many animal species and can be used to influence physiological responses that is called programming. This study proposes to describe the basal hepatic metabolism at the level of mRNA in mule duck embryos in order to reveal potential interesting programming windows in the context of foie gras production. To this end, a kinetic study was designed to determine the level of expression of selected genes involved in steatosis-related liver functions throughout embryogenesis. The livers of 20 mule duck embryos were collected every 4 days from the 12th day of embryogenesis (E12) until 4 days after hatching (D4), and gene expression analysis was performed. The expression levels of 50 mRNAs were quantified for these 7 sampling points and classified into 4 major cellular pathways. Results: Interestingly, most mRNAs involved in lipid metabolism are overexpressed after hatching (FASN, SCD1, ACOX1), whereas genes implicated in carbohydrate metabolism (HK1, GAPDH, GLUT1) and development (HGF, IGF, FGFR2) are predominantly overexpressed from E12 to E20. Finally, regarding cellular stress, gene expression appears quite stable throughout development, contrasting with strong expression after hatching (CYP2E1, HSBP1, HSP90AA1). Conclusion: For the first time we described the kinetics of hepatic ontogenesis at mRNA level in mule ducks and highlighted different expression patterns depending on the cellular pathway. These results could be particularly useful in the design of embryonic programming for the production of foie gras. [ABSTRACT FROM AUTHOR]

Published

2020

9. Mapping of leptin and its syntenic genes to chicken chromosome 1p.

Author

Seroussi, Eyal, Pitel, Frédérique, Leroux, Sophie, Morisson, Mireille, Bornelöv, Susanne, Miyara, Shoval, Yosefi, Sara, Cogburn, Larry A., Burt, David W., Anderson, Leif, and Friedman-Einat, Miriam

Subjects

*LEPTIN, *PEPTIDE hormones, *ANIMAL genetics, *CHICKENS, *GENE mapping, *NUCLEOTIDE sequencing

Abstract

Background: Misidentification of the chicken leptin gene has hampered research of leptin signaling in this species for almost two decades. Recently, the genuine leptin gene with a GC-rich (~70%) repetitive-sequence content was identified in the chicken genome but without indicating its genomic position. This suggests that such GC-rich sequences are difficult to sequence and therefore substantial regions are missing from the current chicken genome assembly. Results: A radiation hybrid panel of chicken-hamster Wg3hCl2 cells was used to map the genome location of the chicken leptin gene. Contrary to our expectations, based on comparative genome mapping and sequence characteristics, the chicken leptin was not located on a microchromosome, which are known to contain GC-rich and repetitive regions, but at the distal tip of the largest chromosome (1p). Following conserved synteny with other vertebrates, we also mapped five additional genes to this genomic region (ARF5, SND1, LRRC4, RBM28, and FLNC), bridging the genomic gap in the current Galgal5 build for this chromosome region. All of the short scaffolds containing these genes were found to consist of GC-rich (54 to 65%) sequences comparing to the average GC-content of 40% on chromosome 1. In this syntenic group, the RNA-binding protein 28 (RBM28) was in closest proximity to leptin. We deduced the full-length of the RBM28 cDNA sequence and profiled its expression patterns detecting a negative correlation (R = - 0.7) between the expression of leptin and of RBM28 across tissues that expressed at least one of the genes above the average level. This observation suggested a local regulatory interaction between these genes. In adipose tissues, we observed a significant increase in RBM28 mRNA expression in breeds with lean phenotypes. Conclusion: Mapping chicken leptin together with a cluster of five syntenic genes provided the final proof for its identification as the true chicken ortholog. The high GC-content observed for the chicken leptin syntenic group suggests that other similar clusters of genes in GC-rich genomic regions are missing from the current genome assembly (Galgal5), which should be resolved in future assemblies of the chicken genome. [ABSTRACT FROM AUTHOR]

Published

2017

10. A New Chicken Genome Assembly Provides Insight into Avian Genome Structure.

Author

Warren, Wesley C., Hillier, LaDeana W., Tomlinson, Chad, Minx, Patrick, Kremitzki, Milinn, Graves, Tina, Markovic, Chris, Bouk, Nathan, Pruitt, Kim D., Thibaud-Nissen, Francoise, Schneider, Valerie, Mansour, Tamer A., Brown, C. Titus, Zimin, Aleksey, Hawken, Rachel, Abrahamsen, Mitch, Pyrkosz, Alexis B., Morisson, Mireille, Fillon, Valerie, and Vignal, Alain

Subjects

*ANIMAL genetics, *CHICKENS, *CHROMOSOMES, *NUCLEOTIDE sequencing

Abstract

The importance of the Gallus gallus (chicken) as a model organism and agricultural animal merits a continuation of sequence assembly improvement efforts. We present a new version of the chicken genome assembly (Gallus_gallus-5.0; GCA_000002315.3), built from combined long single molecule sequencing technology, finished BACs, and improved physical maps. In overall assembled bases, we see a gain of 183 Mb, including 16.4 Mb in placed chromosomes with a corresponding gain in the percentage of intact repeat elements characterized. Of the 1.21 Gb genome, we include three previously missing autosomes, GGA30, 31, and 33, and improve sequence contig length 10-fold over the previous Gallus_gallus- 4.0. Despite the significant base representation improvements made, 138 Mb of sequence is not yet located to chromosomes. When annotated for gene content, Gallus_gallus-5.0 shows an increase of 4679 annotated genes (2768 noncoding and 1911 protein-coding) over those in Gallus_gallus-4.0. We also revisited the question of what genes are missing in the avian lineage, as assessed by the highest quality avian genome assembly to date, and found that a large fraction of the original set of missing genes are still absent in sequenced bird species. Finally, our new data support a detailed map of MHC-B, encompassing two segments: one with a highly stable gene copy number and another in which the gene copy number is highly variable. The chicken model has been a critical resource for many other fields of study, and this new reference assembly will substantially further these efforts. [ABSTRACT FROM AUTHOR]

Published

2017

11. Influence of grand-mother diet on offspring performances through the male line in Muscovy duck.

Author

Brun, Jean-Michel, Bernadet, Marie-Dominique, Cornuez, Alexis, Leroux, Sophie, Bodin, Loys, Basso, Benjamin, Davail, Stéphane, Jaglin, Mathilde, Lessire, Michel, Martin, Xavier, Sellier, Nadine, Morisson, Mireille, and Pitel, Frédérique

Subjects

*DIET, *PHYSIOLOGY, *PHYSIOLOGICAL effects of methionine, *PHYSIOLOGICAL effects of amino acids, *METHIONINE metabolism, *EPIDEMIOLOGY, *MUSCOVY duck

Abstract

Background: In mammals, multigenerational environmental effects have been documented by either epidemiological studies in human or animal experiments in rodents. Whether such phenomena also occur in birds for more than one generation is still an open question. The objective of this study was to investigate if a methionine deficiency experienced by a mother (G0) could affect her grand-offspring phenotypes (G2 hybrid mule ducks and G2 purebred Muscovy ducks), through their Muscovy sons (G1). Muscovy drakes are used for the production of mule ducks, which are sterile offspring of female common duck (Anas platyrhynchos) and Muscovy drakes (Cairina moschata). In France, mule ducks are bred mainly for the production of "foie gras", which stems from hepatic steatosis under two weeks of force-feeding (FF). Two groups of female Muscovy ducks received either a methionine deficient diet or a control diet. Their sons were mated to Muscovy or to common duck females to produce Muscovy or Mule ducks, respectively. Several traits were measured in the G2 progenies, concerning growth, feed efficiency during FF, body composition after FF, and quality of foie gras and magret. Results: In the G2 mule duck progeny, grand-maternal methionine deficiency (GMMD) decreased 4, 8, and 12 week body weights but increased weight gain and feed efficiency during FF, and abdominal fat weight. The plasmatic glucose and triglyceride contents at the end of FF were higher in the methionine deficient group. In the G2 purebred Muscovy progeny, GMMD tended to decrease 4 week body weight in both sexes, and decreased weight gain between the ages of 4 and 12 weeks, 12 week body weight, and body weight at the end of FF in male offspring only. GMMD tended to increase liver weight and increased the carcass proportion of liver in both sexes. Conclusion: Altogether, these results show that the mother's diet is able to affect traits linked to growth and to lipid metabolism in the offspring of her sons, in Muscovy ducks. Whether this transmission through the father of information induced in the grand-mother by the environment is epigenetic remains to be demonstrated. [ABSTRACT FROM AUTHOR]

Published

2015

12. Integrative mapping analysis of chicken microchromosome 16 organization.

Author

Solinhac, Romain, Leroux, Sophie, Galkina, Svetlana, Chazara, Olympe, Feve, Katia, Vignoles, Florence, Morisson, Mireille, Derjusheva, Svetlana, Bed'hom, Bertrand, Vignal, Alain, Fillon, Valérie, and Pitel, Frédérique

Subjects

*KARYOTYPES, *BACTERIAL artificial chromosomes, *PLANT gene mapping, *INVERTED repeats (Genetics), *RIBOSOMAL RNA, *GENETIC markers, *CHICKENS, *GENE mapping

Abstract

Background: The chicken karyotype is composed of 39 chromosome pairs, of which 9 still remain totally absent from the current genome sequence assembly, despite international efforts towards complete coverage. Some others are only very partially sequenced, amongst which microchromosome 16 (GGA16), particularly under-represented, with only 433 kb assembled for a full estimated size of 9 to 11 Mb. Besides the obvious need of full genome coverage with genetic markers for QTL (Quantitative Trait Loci) mapping and major genes identification studies, there is a major interest in the detailed study of this chromosome because it carries the two genetically independent MHC complexes B and Y. In addition, GGA16 carries the ribosomal RNA (rRNA) genes cluster, also known as the NOR (nucleolus organizer region). The purpose of the present study is to construct and present high resolution integrated maps of GGA16 to refine its organization and improve its coverage with genetic markers. Results: We developed 79 STS (Sequence Tagged Site) markers to build a physical RH (radiation hybrid) map and 34 genetic markers to extend the genetic map of GGA16. We screened a BAC (Bacterial Artificial Chromosome) library with markers for the MHC-B, MHC-Y and rRNA complexes. Selected clones were used to perform high resolution FISH (Fluorescent In Situ Hybridization) mapping on giant meiotic lampbrush chromosomes, allowing meiotic mapping in addition to the confirmation of the order of the three clusters along the chromosome. A region with high recombination rates and containing PO41 repeated elements separates the two MHC complexes. Conclusions: The three complementary mapping strategies used refine greatly our knowledge of chicken microchromosome 16 organisation. The characterisation of the recombination hotspots separating the two MHC complexes demonstrates the presence of PO41 repetitive sequences both in tandem and inverted orientation. However, this region still needs to be studied in more detail. [ABSTRACT FROM AUTHOR]

Published

2010

13. Integrative mapping analysis of chicken microchromosome 16 organization.

Author

Solinhac, Romain, Leroux, Sophie, Galkina, Svetlana, Chazara, Olympe, Feve, Katia, Vignoles, Florence, Morisson, Mireille, Derjusheva, Svetlana, Bed'hom, Bertrand, Vignal, Alain, Fillon, Valérie, and Pitel, Frédérique

Subjects

*KARYOTYPES, *CHICKENS, *CHROMOSOMES, *RNA, *GENETIC markers

Abstract

Background: The chicken karyotype is composed of 39 chromosome pairs, of which 9 still remain totally absent from the current genome sequence assembly, despite international efforts towards complete coverage. Some others are only very partially sequenced, amongst which microchromosome 16 (GGA16), particularly underrepresented, with only 433 kb assembled for a full estimated size of 9 to 11 Mb. Besides the obvious need of full genome coverage with genetic markers for QTL (Quantitative Trait Loci) mapping and major genes identification studies, there is a major interest in the detailed study of this chromosome because it carries the two genetically independent MHC complexes B and Y. In addition, GGA16 carries the ribosomal RNA (rRNA) genes cluster, also known as the NOR (nucleolus organizer region). The purpose of the present study is to construct and present high resolution integrated maps of GGA16 to refine its organization and improve its coverage with genetic markers. Results: We developed 79 STS (Sequence Tagged Site) markers to build a physical RH (radiation hybrid) map and 34 genetic markers to extend the genetic map of GGA16. We screened a BAC (Bacterial Artificial Chromosome) library with markers for the MHC-B, MHC-Y and rRNA complexes. Selected clones were used to perform high resolution FISH (Fluorescent In Situ Hybridization) mapping on giant meiotic lampbrush chromosomes, allowing meiotic mapping in addition to the confirmation of the order of the three clusters along the chromosome. A region with high recombination rates and containing PO41 repeated elements separates the two MHC complexes. Conclusions: The three complementary mapping strategies used refine greatly our knowledge of chicken microchromosome 16 organisation. The characterisation of the recombination hotspots separating the two MHC complexes demonstrates the presence of PO41 repetitive sequences both in tandem and inverted orientation. However, this region still needs to be studied in more detail. [ABSTRACT FROM AUTHOR]

Published

2010

14. Addition of the microchromosome GGA25 to the chicken genome sequence assembly through radiation hybrid and genetic mapping.

Author

Douaud, Marine, Fève, Katia, Gerus, Marie, Fillon, Valérie, Bardes, Suzanne, Gourichon, David, Dawson, Deborah A., Hanotte, Olivier, Burke, Terry, Vignoles, Florence, Morisson, Mireille, Tixier-Boichard, Michèle, Vignal, Alain, and Pitel, Frédérique

Subjects

*CHROMOSOMES, *GENOMES, *ANIMAL genome mapping, *GENETIC markers, *FLUORESCENCE in situ hybridization, *HUMAN genome

Abstract

Background: The publication of the first draft chicken sequence assembly became available in 2004 and was updated in 2006. However, this does not constitute a definitive and complete sequence of the chicken genome, since the microchromosomes are notably under-represented. In an effort to develop maps for the microchromosomes absent from the chicken genome assembly, we developed radiation hybrid (RH) and genetic maps with markers isolated from sequence currently assigned to "chromosome Unknown" (chrUn). The chrUn is composed of sequence contigs not assigned to named chromosomes. To identify and map sequence belonging to the microchromosomes we used a comparative mapping strategy, and we focused on the small linkage group E26C13. Results: In total, 139 markers were analysed with the chickRH6 panel, of which 120 were effectively assigned to the E26C13 linkage group, the remainder mapping elsewhere in the genome. The final RH map is composed of 22 framework markers extending over a 245.6 cR distance. A corresponding genetic map was developed, whose length is 103 cM in the East Lansing reference population. The E26C13 group was assigned to GGA25 (Gallus gallus chromosome 25) by FISH (fluorescence in situ hybridisation) mapping. Conclusion: The high-resolution RH framework map obtained here covers the entire chicken chromosome 25 and reveals the existence of a high number of intrachromosomal rearrangements when compared to the human genome. The strategy used here for the characterization of GGA25 could be used to improve knowledge on the other uncharacterized small, yet gene-rich microchromosomes. [ABSTRACT FROM AUTHOR]

Published

2008

15. Female-Specific DNA Sequences in the Chicken Genome.

Author

Granevitze, Zur, Blum, Shula, Cheng, Hans, Vignal, Alain, Morisson, Mireille, Ben-Ari, Giora, David, Lior, Feldman, Marcus William, Weigend, Steffen, and Hillel, Jossi

Subjects

*NUCLEOTIDE sequence, *GENOMES, *CHICKENS, *GENETIC polymorphisms, *GENE mapping, *CHROMOSOMES

Abstract

Eight in silico W-specific sequences from the WASHUC1 chicken genome assembly gave female-specific PCR products using chicken DNA. Some of these fragments gave female-specific products with turkey and peacock DNA. Sequence analysis of these 8 fragments (3077 bp total) failed to detect any polymorphisms among 10 divergent chickens. In contrast, comparison of the DNA sequences of chicken with those of turkey and peacock revealed a nucleotide difference every 25 and 28 bp, respectively. Radiation hybrid mapping verified that these amplicons exist only on chromosome W. The homology of 6 W-specific fragments with chromo-helicase-DNA-binding gene and expressed sequenced tags from chicken and other species indicate that these fragments may have or have had a biological function. These fragments may be used for early sexing in commercial chicken and turkey flocks. [ABSTRACT FROM AUTHOR]

Published

2007

16. Cloning of Ovocalyxin-36, a Novel Chicken Eggshell Protein Related to Lipopolysaccharide-binding Proteins, Bactericidal Permeability-increasing Proteins, and Plunc Family Proteins.

Author

Gautron, Joel, Murayama, Emi, Vignal, Alain, Morisson, Mireille, Mckee, Marc D., Réhault, Sophie, Labas, Valerie, Belghazi, Maya, Vidal, Mary-Laure, Nys, Yves, and Hincke, Maxwell T.

Subjects

*PROTEINS, *CLONING, *EGGSHELLS, *CHICKENS, *ENDOTOXINS, *CARRIER proteins, *COMPOSITE materials, *BIOMEDICAL materials

Abstract

The avian eggshell is a composite biomaterial composed of noncalcifying eggshell membranes and the overlying calcified shell matrix. The shell is deposited in a uterine fluid where the concentration of different protein species varies at different stages of its formation. The role of avian eggshell proteins during shell formation remains poorly understood, and we have sought to identify and characterize the individual components in order to gain insight into their function during elaboration of the eggshell. In this study, we have used direct sequencing, immunochemistry, expression screening, and EST data base mining to clone and characterize a 1995-bp full-length cDNA sequence corresponding to a novel chicken eggshell protein that we have named Ovocalyxin-36 (OCX-36). Ovocalyxin-36 protein was only detected in the regions of the oviduct where egg- shell formation takes place; uterine OCX-36 message was strongly up-regulated during eggshell calcification. OCX-36 localized to the calcified eggshell predominantly in the inner part of the shell, and to the shell membranes. BlastN data base searching indicates that there is no mammalian version of OCX- 36; however, the protein sequence is 20-25% homologous to proteins associated with the innate immune response as follows: lipopolysaccharide-binding proteins, bactericidal permeability- increasing proteins, and Plunc family proteins. Moreover, the genomic organization of these proteins and OCX-36 appears to be highly conserved. These observations suggest that OCX- 36 is a novel and specific chicken eggshell protein related to the superfamily of lipopolysaccharide-binding proteins/bactericidal permeability-increasing proteins and Plunc proteins. OCX-36 may therefore participate in natural defense mechanisms that keep the egg free of pathogens. [ABSTRACT FROM AUTHOR]

Published

2007

17. Single nucleotide polymorphisms in the chicken Lmbr1 gene are associated with chicken polydactyly

Author

Huang, Yan Qun, Deng, Xue Mei, Du, Zhi Qiang, Qiu, Xiangpin, Du, Xiaohui, Chen, Wen, Morisson, Mireille, Leroux, Sophie, Ponce de Léon, F. Abel, Da, Yang, and Li, Ning

Subjects

*GENETIC polymorphisms, *DNA polymerases, *REVERSE transcriptase, *AMINO acids

Abstract

Abstract: Polydactyly is a common malformation of vertebrate limbs. Preaxial polydactyly (PPD) has been mapped in human, mouse and chicken to the syntenic region of human 7q36. Lmbr1 was thought as the critical candidate gene for human and mouse PPD. To understand the molecular mechanism underlying chicken polydactyly, we have cloned the open reading frame (ORF) of chicken Lmbr1, which contains 1467 nucleotides. Within this ORF, we found one short and one long splice forms. The short splice form has a complete deletion of exon 4. Six cSNPs were found in the chicken ORF, and two of these cSNPs, G797A and G1255A, lead to amino acid substitutions. However, G797A substitution had no significant association with polydactyly and the G1255A substitution had very low frequency in the population. The T1254C polymorphism in exon 13 was found to be strongly associated with polydactyly. Radiation hybrid mapping of a DNA fragment containing intron 13 of the chicken Lmbr1 assigned the gene to chromosome 2 between MCW071 (a marker within the EN2 gene) and ADL0270, a syntenic region to human 7q36. [Copyright &y& Elsevier]

Published

2006

18. Comparative genomics provides evidence for close evolutionary relationships between the urotensin II and somatostatin gene families.

Author

Tostivint, Hervé, Joly, Lucille, Lihrmann, Isabelle, Parmentier, Caroline, Lebon, Alexis, Morisson, Mireille, Calas, André, Ekker, Marc, and Vaudry, Hubert

Subjects

*GENOMICS, *SOMATOSTATIN, *GASTROINTESTINAL hormones, *MOLECULAR genetics, *PEPTIDES, *GENETIC research

Abstract

Although urotensin II (UII) and somatostatin 1 (SS1) exhibit some structural similarities, their precursors do not show any appreciable sequence identity and, thus, it is widely accepted that the UII and SS1 genes do not derive from a common ancestral gene. The recent characterization of novel isoforms of these two peptides, namely urotensin II-related peptide (URP) and somatostatin 2 (SS2)/ cortistatin (CST), provides new opportunity to revisit the phylogenetic relationships of UII and SS1 using a comparative genomics approach. In the present study, by radiation hybrid mapping and in silica sequence analysis, we have determined the chromosomal localization of the genes encoding UII- and somatostatin-related peptides in several vertebrate species, including human, chicken, and zebrafish. In most of the species investigated, the UII and URP genes are closely linked to the SS2/CST and SS1 genes, respectively. We also found that the UII-SS2/CST locus and the URP/SS1 locus are paralogous. Taken together, these data indicate that the UII and URP genes, on the one hand, and the SS1 and SS2/CST genes, on the other hand, arose through a segmental duplication of two ancestral genes that were already physically linked to each other. Our results also suggest that these two genes arose themselves through a tandem duplication of a single ancestral gene. It thus appears that the genes encoding UII- and somatostatin- related peptides belong to the same superfamily. [ABSTRACT FROM AUTHOR]

Published

2006

19. Construction of a radiation hybrid map of chicken chromosome 2 and alignment to the chicken draft sequence.

Author

Leroux, Sophie, Dottax, Mélanie, Bardes, Suzanne, Vignoles, Florence, Fève, Katia, Pitel, Frédérique, Morisson, Mireille, and Vignal, Alain

Subjects

*CHROMOSOMES, *GENOMES, *RADIATION, *NUCLEOTIDE sequence, *CHICKENS

Abstract

Background: The ChickRH6 whole chicken genome radiation hybrid (RH) panel recently produced has already been used to build radiation hybrid maps for several chromosomes, generating comparative maps with the human and mouse genomes and suggesting improvements to the chicken draft sequence assembly. Here we present the construction of a RH map of chicken chromosome 2. Markers from the genetic map were used for alignment to the existing GGA2 (Gallus gallus chromosome 2) linkage group and EST were used to provide valuable comparative mapping information. Finally, all markers from the RH map were localised on the chicken draft sequence assembly to check for eventual discordances. Results: Eighty eight microsatellite markers, 10 genes and 219 EST were selected from the genetic map or on the basis of available comparative mapping information. Out of these 317 markers, 270 gave reliable amplifications on the radiation hybrid panel and 198 were effectively assigned to GGA2. The final RH map is 2794 cR6000 long and is composed of 86 framework markers distributed in 5 groups. Conservation of synteny was found between GGA2 and eight human chromosomes, with segments of conserved gene order of varying lengths. Conclusion: We obtained a radiation hybrid map of chicken chromosome 2. Comparison to the human genome indicated that most of the 8 groups of conserved synteny studied underwent internal rearrangements. The alignment of our RH map to the first draft of the chicken genome sequence assembly revealed a good agreement between both sets of data, indicative of a low error rate. [ABSTRACT FROM AUTHOR]

Published

2005

20. Avian Expression Patterns and Genomic Mapping Implicate Leptin in Digestion and TNF in Immunity, Suggesting That Their Interacting Adipokine Role Has Been Acquired Only in Mammals.

Author

Seroussi, Eyal, Knytl, Martin, Pitel, Frédérique, Elleder, Daniel, Krylov, Vladimir, Leroux, Sophie, Morisson, Mireille, Yosefi, Sara, Miyara, Shoval, Ganesan, Saibaba, Ruzal, Mark, Andersson, Leif, and Friedman-Einat, Miriam

Subjects

*TEXTURE mapping, *LEPTIN, *ADIPOKINES, *LEPTIN receptors, *MAJOR histocompatibility complex, *TUMOR necrosis factor receptors, *ALIMENTARY canal, *TUMOR necrosis factors

Abstract

In mammals, leptin and tumor-necrosis factor (TNF) are prominent interacting adipokines mediating appetite control and insulin sensitivity. While TNF pleiotropically functions in immune defense and cell survival, leptin is largely confined to signaling energy stores in adipocytes. Knowledge about the function of avian leptin and TNF is limited and they are absent or lowly expressed in adipose, respectively. Employing radiation-hybrid mapping and FISH-TSA, we mapped TNF and its syntenic genes to chicken chromosome 16 within the major histocompatibility complex (MHC) region. This mapping position suggests that avian TNF has a role in regulating immune response. To test its possible interaction with leptin within the immune system and beyond, we compared the transcription patterns of TNF, leptin and their cognate receptors obtained by meta-analysis of GenBank RNA-seq data. While expression of leptin and its receptor (LEPR) were detected in the brain and digestive tract, TNF and its receptor mRNAs were primarily found in viral-infected and LPS-treated leukocytes. We confirmed leptin expression in the duodenum by immunohistochemistry staining. Altogether, we suggest that whereas leptin and TNF interact as adipokines in mammals, in birds, they have distinct roles. Thus, the interaction between leptin and TNF may be unique to mammals. [ABSTRACT FROM AUTHOR]

Published

2019