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40 results on '"Carré, Wilfrid"'

1. DISP1 deficiency: Monoallelic and biallelic variants cause a spectrum of midline craniofacial malformations

Author

Lavillaureix, Alinoë, Rollier, Paul, Kim, Artem, Panasenkava, Veranika, De Tayrac, Marie, Carré, Wilfrid, Guyodo, Hélène, Faoucher, Marie, Poirel, Elisabeth, Akloul, Linda, Quélin, Chloé, Whalen, Sandra, Bos, Jessica, Broekema, Marjoleine, van Hagen, Johanna M., Grand, Katheryn, Allen-Sharpley, Michelle, Magness, Emily, McLean, Scott D., Kayserili, Hülya, Altunoglu, Umut, En Qi Chong, Angie, Xue, Shifeng, Jeanne, Médéric, Almontashiri, Naif, Habhab, Wisam, Vanlerberghe, Clemence, Faivre, Laurence, Viora-Dupont, Eléonore, Philippe, Christophe, Safraou, Hana, Laffargue, Fanny, Mittendorf, Luisa, Abou Jamra, Rami, Patil, Siddaramappa Jagdish, Dalal, Ashwin, Sarma, Asodu Sandeep, Keren, Boris, Reversade, Bruno, Dubourg, Christèle, Odent, Sylvie, and Dupé, Valérie

Published
2024
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2. Dual Molecular Effects of Dominant RORA Mutations Cause Two Variants of Syndromic Intellectual Disability with Either Autism or Cerebellar Ataxia

Author

Guissart, Claire, Latypova, Xenia, Rollier, Paul, Khan, Tahir N, Stamberger, Hannah, McWalter, Kirsty, Cho, Megan T, Kjaergaard, Susanne, Weckhuysen, Sarah, Lesca, Gaetan, Besnard, Thomas, Õunap, Katrin, Schema, Lynn, Chiocchetti, Andreas G, McDonald, Marie, de Bellescize, Julitta, Vincent, Marie, Van Esch, Hilde, Sattler, Shannon, Forghani, Irman, Thiffault, Isabelle, Freitag, Christine M, Barbouth, Deborah Sara, Cadieux-Dion, Maxime, Willaert, Rebecca, Sacoto, Maria J Guillen, Safina, Nicole P, Dubourg, Christèle, Grote, Lauren, Carré, Wilfrid, Saunders, Carol, Pajusalu, Sander, Farrow, Emily, Boland, Anne, Karlowicz, Danielle Hays, Deleuze, Jean-François, Wojcik, Monica H, Pressman, Rena, Isidor, Bertrand, Vogels, Annick, Van Paesschen, Wim, Al-Gazali, Lihadh, Shamsi, Aisha Mohamed Al, Claustres, Mireille, Pujol, Aurora, Sanders, Stephan J, Rivier, François, Leboucq, Nicolas, Cogné, Benjamin, Sasorith, Souphatta, Sanlaville, Damien, Retterer, Kyle, Odent, Sylvie, Katsanis, Nicholas, Bézieau, Stéphane, Koenig, Michel, Davis, Erica E, Pasquier, Laurent, and Küry, Sébastien

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Genetics, Intellectual and Developmental Disabilities (IDD), Neurodegenerative, Neurosciences, Pediatric, Rare Diseases, Brain Disorders, Autism, Mental Health, 2.1 Biological and endogenous factors, Aetiology, Neurological, Adolescent, Adult, Aged, 80 and over, Alleles, Animals, Autistic Disorder, Brain, Cerebellar Ataxia, Child, Child, Preschool, DNA Copy Number Variations, Disease Models, Animal, Female, Genes, Dominant, Genetic Complementation Test, Humans, Intellectual Disability, Larva, Magnetic Resonance Imaging, Male, Middle Aged, Mutation, Missense, Nuclear Receptor Subfamily 1, Group F, Member 1, Purkinje Cells, Syndrome, Zebrafish, RORA, autistic features, cerebellar ataxia, dual molecular effects, epilepsy, intellectual disability, neurodevelopmental disorder, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

RORα, the RAR-related orphan nuclear receptor alpha, is essential for cerebellar development. The spontaneous mutant mouse staggerer, with an ataxic gait caused by neurodegeneration of cerebellar Purkinje cells, was discovered two decades ago to result from homozygous intragenic Rora deletions. However, RORA mutations were hitherto undocumented in humans. Through a multi-centric collaboration, we identified three copy-number variant deletions (two de novo and one dominantly inherited in three generations), one de novo disrupting duplication, and nine de novo point mutations (three truncating, one canonical splice site, and five missense mutations) involving RORA in 16 individuals from 13 families with variable neurodevelopmental delay and intellectual disability (ID)-associated autistic features, cerebellar ataxia, and epilepsy. Consistent with the human and mouse data, disruption of the D. rerio ortholog, roraa, causes significant reduction in the size of the developing cerebellum. Systematic in vivo complementation studies showed that, whereas wild-type human RORA mRNA could complement the cerebellar pathology, missense variants had two distinct pathogenic mechanisms of either haploinsufficiency or a dominant toxic effect according to their localization in the ligand-binding or DNA-binding domains, respectively. This dichotomous direction of effect is likely relevant to the phenotype in humans: individuals with loss-of-function variants leading to haploinsufficiency show ID with autistic features, while individuals with de novo dominant toxic variants present with ID, ataxia, and cerebellar atrophy. Our combined genetic and functional data highlight the complex mutational landscape at the human RORA locus and suggest that dual mutational effects likely determine phenotypic outcome.

Published
2018

3. De Novo Mutations in Protein Kinase Genes CAMK2A and CAMK2B Cause Intellectual Disability

Author

Küry, Sébastien, van Woerden, Geeske M, Besnard, Thomas, Onori, Martina Proietti, Latypova, Xénia, Towne, Meghan C, Cho, Megan T, Prescott, Trine E, Ploeg, Melissa A, Sanders, Stephan, Stessman, Holly AF, Pujol, Aurora, Distel, Ben, Robak, Laurie A, Bernstein, Jonathan A, Denommé-Pichon, Anne-Sophie, Lesca, Gaëtan, Sellars, Elizabeth A, Berg, Jonathan, Carré, Wilfrid, Busk, Øyvind Løvold, van Bon, Bregje WM, Waugh, Jeff L, Deardorff, Matthew, Hoganson, George E, Bosanko, Katherine B, Johnson, Diana S, Dabir, Tabib, Holla, Øystein Lunde, Sarkar, Ajoy, Tveten, Kristian, de Bellescize, Julitta, Braathen, Geir J, Terhal, Paulien A, Grange, Dorothy K, van Haeringen, Arie, Lam, Christina, Mirzaa, Ghayda, Burton, Jennifer, Bhoj, Elizabeth J, Douglas, Jessica, Santani, Avni B, Nesbitt, Addie I, Helbig, Katherine L, Andrews, Marisa V, Begtrup, Amber, Tang, Sha, van Gassen, Koen LI, Juusola, Jane, Foss, Kimberly, Enns, Gregory M, Moog, Ute, Hinderhofer, Katrin, Paramasivam, Nagarajan, Lincoln, Sharyn, Kusako, Brandon H, Lindenbaum, Pierre, Charpentier, Eric, Nowak, Catherine B, Cherot, Elouan, Simonet, Thomas, Ruivenkamp, Claudia AL, Hahn, Sihoun, Brownstein, Catherine A, Xia, Fan, Schmitt, Sébastien, Deb, Wallid, Bonneau, Dominique, Nizon, Mathilde, Quinquis, Delphine, Chelly, Jamel, Rudolf, Gabrielle, Sanlaville, Damien, Parent, Philippe, Gilbert-Dussardier, Brigitte, Toutain, Annick, Sutton, Vernon R, Thies, Jenny, Peart-Vissers, Lisenka ELM, Boisseau, Pierre, Vincent, Marie, Grabrucker, Andreas M, Dubourg, Christèle, Network, Undiagnosed Diseases, Tan, Wen-Hann, Verbeek, Nienke E, Granzow, Martin, Santen, Gijs WE, Shendure, Jay, Isidor, Bertrand, Pasquier, Laurent, Redon, Richard, Yang, Yaping, State, Matthew W, Kleefstra, Tjitske, Cogné, Benjamin, HUGO, GEM, Study, Deciphering Developmental Disorders, Petrovski, Slavé, and Retterer, Kyle

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Neurosciences, Brain Disorders, Genetics, Intellectual and Developmental Disabilities (IDD), Pediatric, Underpinning research, 1.1 Normal biological development and functioning, Aetiology, 2.1 Biological and endogenous factors, Neurological, Animals, Brain, Calcium-Calmodulin-Dependent Protein Kinase Type 2, Cell Line, Exome, Female, Glutamic Acid, HEK293 Cells, Humans, Intellectual Disability, Male, Mice, Mice, Inbred C57BL, Mutation, Neurons, Phosphorylation, Signal Transduction, Undiagnosed Diseases Network, GEM HUGO, Deciphering Developmental Disorders Study, AMPAR, CAMK2, CAMK2A, CAMK2B, NMDAR, de novo mutations, intellectual disability, synaptic plasticity, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Calcium/calmodulin-dependent protein kinase II (CAMK2) is one of the first proteins shown to be essential for normal learning and synaptic plasticity in mice, but its requirement for human brain development has not yet been established. Through a multi-center collaborative study based on a whole-exome sequencing approach, we identified 19 exceedingly rare de novo CAMK2A or CAMK2B variants in 24 unrelated individuals with intellectual disability. Variants were assessed for their effect on CAMK2 function and on neuronal migration. For both CAMK2A and CAMK2B, we identified mutations that decreased or increased CAMK2 auto-phosphorylation at Thr286/Thr287. We further found that all mutations affecting auto-phosphorylation also affected neuronal migration, highlighting the importance of tightly regulated CAMK2 auto-phosphorylation in neuronal function and neurodevelopment. Our data establish the importance of CAMK2A and CAMK2B and their auto-phosphorylation in human brain function and expand the phenotypic spectrum of the disorders caused by variants in key players of the glutamatergic signaling pathway.

Published
2017

7. Genome structure and metabolic features in the red seaweed Chondrus crispus shed light on evolution of the Archaeplastida

Author

Collén, Jonas, Porcel, Betina, Carré, Wilfrid, Ball, Steven G., Chaparro, Cristian, Tonon, Thierry, Barbeyron, Tristan, Michel, Gurvan, Noel, Benjamin, Valentin, Klaus, Elias, Marek, Artiguenave, François, Arun, Alok, Aury, Jean-Marc, Barbosa-Neto, José F., Bothwell, John H., Bouget, François-Yves, Brillet, Loraine, Cabello-Hurtado, Francisco, Capella-Gutiérrez, Salvador, Charrier, Bénédicte, Cladière, Lionel, Cock, J. Mark, Coelho, Susana M., Colleoni, Christophe, Czjzek, Mirjam, Da Silva, Corinne, Delage, Ludovic, Denoeud, France, Deschamps, Philippe, Dittami, Simon M., Gabaldón, Toni, Gachon, Claire M. M., Groisillier, Agnès, Hervé, Cécile, Jabbari, Kamel, Katinka, Michael, Kloareg, Bernard, Kowalczyk, Nathalie, Labadie, Karine, Leblanc, Catherine, Lopez, Pascal J., McLachlan, Deirdre H., Meslet-Cladiere, Laurence, Moustafa, Ahmed, Nehr, Zofia, Collén, Pi Nyvall, Panaud, Olivier, Partensky, Frédéric, Poulain, Julie, Rensing, Stefan A., Rousvoal, Sylvie, Samson, Gaelle, Symeonidi, Aikaterini, Weissenbach, Jean, Zambounis, Antonios, Wincker, Patrick, and Boyen, Catherine

Published
2013

8. Mapping quantitative trait loci affecting fatness and breast muscle weight in meat-type chicken lines divergently selected on abdominal fatness

Author

Neau André, Pitel Frédérique, Vignal Alain, Simon Jean, Leclercq Bernard, Carré Wilfrid, Cogburn Larry, Aggrey Sammy, Amigues Yves, Lagarrigue Sandrine, Abasht Behnam, Le Roy Pascale, Sourdioux Michel, and Douaire Madeleine

Subjects
quantitative trait locus, abdominal fat, breast muscle, chicken, Animal culture, SF1-1100, Genetics, QH426-470
Abstract

Abstract Quantitative trait loci (QTL) for abdominal fatness and breast muscle weight were investigated in a three-generation design performed by inter-crossing two experimental meat-type chicken lines that were divergently selected on abdominal fatness. A total of 585 F2 male offspring from 5 F1 sires and 38 F1 dams were recorded at 8 weeks of age for live body, abdominal fat and breast muscle weights. One hundred-twenty nine microsatellite markers, evenly located throughout the genome and heterozygous for most of the F1 sires, were used for genotyping the F2 birds. In each sire family, those offspring exhibiting the most extreme values for each trait were genotyped. Multipoint QTL analyses using maximum likelihood methods were performed for abdominal fat and breast muscle weights, which were corrected for the effects of 8-week body weight, dam and hatching group. Isolated markers were assessed by analyses of variance. Two significant QTL were identified on chromosomes 1 and 5 with effects of about one within-family residual standard deviation. One breast muscle QTL was identified on GGA1 with an effect of 2.0 within-family residual standard deviation.

Published
2006

10. Bacterial protein signals are associated with Crohn’s disease

Author

Juste, Catherine, Kreil, David P, Beauvallet, Christian, Guillot, Alain, Vaca, Sebastian, Carapito, Christine, Mondot, Stanislas, Sykacek, Peter, Sokol, Harry, Blon, Florence, Lepercq, Pascale, Levenez, Florence, Valot, Benoît, Carré, Wilfrid, Loux, Valentin, Pons, Nicolas, David, Olivier, Schaeffer, Brigitte, Lepage, Patricia, Martin, Patrice, Monnet, Véronique, Seksik, Philippe, Beaugerie, Laurent, Ehrlich, S Dusko, Gibrat, Jean-François, Van Dorsselaer, Alain, and Doré, Joël

Published
2014
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11. Skraban‐Deardorff syndrome: Six new cases of WDR26‐related disease and expansion of the clinical phenotype

Author

Cospain, Auriane, primary, Schaefer, Elise, additional, Faoucher, Marie, additional, Dubourg, Christèle, additional, Carré, Wilfrid, additional, Bizaoui, Varoona, additional, Assoumani, Jessica, additional, Van Maldergem, Lionel, additional, Piton, Amélie, additional, Gérard, Bénédicte, additional, Tran Mau‐Them, Frédéric, additional, Bruel, Ange‐Line, additional, Faivre, Laurence, additional, Demurger, Florence, additional, Pasquier, Laurent, additional, Odent, Sylvie, additional, Fradin, Mélanie, additional, and Lavillaureix, Alinoë, additional

Published
2021
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12. Dietary intervention impact on gut microbial gene richness

Author

Cotillard, Aurélie, Kennedy, Sean P., Kong, Ling Chun, Prifti, Edi, Pons, Nicolas, Le Chatelier, Emmanuelle, Almeida, Mathieu, Quinquis, Benoit, Levenez, Florence, Galleron, Nathalie, Gougis, Sophie, Rizkalla, Salwa, Batto, Jean-Michel, Renault, Pierre, Doré, Joel, Zucker, Jean-Daniel, Clément, Karine, Ehrlich, Stanislav Dusko, Blottière, Hervé, Leclerc, Marion, Juste, Catherine, de Wouters, Tomas, Lepage, Patricia, Fouqueray, Charlene, Basdevant, Arnaud, Henegar, Cornelieu, Godard, Cindy, Fondacci, Marine, Rohia, Alili, Hajduch, Froogh, Weissenbach, Jean, Pelletier, Eric, Le Paslier, Denis, Gauchi, Jean-Pierre, Gibrat, Jean-François, Loux, Valentin, Carré, Wilfrid, Maguin, Emmanuelle, van de Guchte, Maarten, Jamet, Alexandre, Boumezbeur, Fouad, and Layec, Séverine

Published
2013
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13. Disrupted Hypothalamo-Pituitary Axis in Association With Reduced SHH Underlies the Pathogenesis of NOTCH-Deficiency

Author

Hamdi-Rozé, Houda, primary, Ware, Michelle, additional, Guyodo, Hélène, additional, Rizzo, Aurélie, additional, Ratié, Leslie, additional, Rupin, Maïlys, additional, Carré, Wilfrid, additional, Kim, Artem, additional, Odent, Sylvie, additional, Dubourg, Christèle, additional, David, Véronique, additional, de Tayrac, Marie, additional, and Dupé, Valérie, additional

Published
2020
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14. Integrated clinical and omics approach to rare diseases : Novel genes and oligogenic inheritance in holoprosencephaly

Author

Kim, Artem, Savary, Clara, Dubourg, Christèle, Carré, Wilfrid, Mouden, Charlotte, Hamdi-Rozé, Houda, Guyodo, Hélène, Douce, Jerome Le, Génin, Emmanuelle, Campion, Dominique, Dartigues, Jean François, Deleuze, Jean François, Lambert, Jean Charles, Redon, Richard, Ludwig, Thomas, Grenier-Boley, Benjamin, Letort, Sébastien, Lindenbaum, Pierre, Meyer, Vincent, Quenez, Olivier, Dina, Christian, Bellenguez, Céline, Charbonnier-Le Clézio, Camille, Giemza, Joanna, Chatel, Stéphanie, Férec, Claude, Le Marec, Hervé, Letenneur, Luc, Nicolas, Gaël, Rouault, Karen, Bacq, Delphine, Boland, Anne, Lechner, Doris, Wijmenga, Cisca, Swertz, Morris A., Eline Slagboom, P., Van Ommen, Gert Jan B., Van Duijn, Cornelia M., Boomsma, Dorret I., De Bakker, Paul I.W., Bovenberg, Jasper A., De Craen, Anton J.M., Beekman, Marian, Hofman, Albert, Willemsen, Gonneke, Wolffenbuttel, Bruce, Platteel, Mathieu, Du, Yuanping, Chen, Ruoyan, Cao, Hongzhi, Cao, Rui, Sun, Yushen, Sujie Cao, Jeremy, Van Dijk, Freerk, Neerincx, Pieter B.T., Deelen, Patrick, Dijkstra, Martijn, Byelas, George, Kanterakis, Alexandros, Bot, Jan, Ye, Kai, Lameijer, Eric Wubbo, Vermaat, Martijn, Laros, Jeroen F.J., Den Dunnen, Johan T., De Knijff, Peter, Karssen, Lennart C., Van Leeuwen, Elisa M., Amin, Najaf, Koval, Vyacheslav, Rivadeneira, Fernando, Estrada, Karol, Hehir-Kwa, Jayne Y., De Ligt, Joep, Abdellaoui, Abdel, Hottenga, Jouke Jan, Mathijs Kattenberg, V., Van Enckevort, David, Mei, Hailiang, Santcroos, Mark, Van Schaik, Barbera D.C., Handsaker, Robert E., McCarroll, Steven A., Eichler, Evan E., Ko, Arthur, Sudmant, Peter, Francioli, Laurent C., Kloosterman, Wigard P., Nijman, Isaac J., Guryev, Victor, Pasquier, Laurent, Flori, Elisabeth, Gonzales, Marie, Bénéteau, Claire, Boute, Odile, Attié-Bitach, Tania, Roume, Joelle, Goujon, Louise, Akloul, Linda, Odent, Sylvie, Watrin, Erwan, Dupé, Valérie, De Tayrac, Marie, David, Véronique, Kim, Artem, Savary, Clara, Dubourg, Christèle, Carré, Wilfrid, Mouden, Charlotte, Hamdi-Rozé, Houda, Guyodo, Hélène, Douce, Jerome Le, Génin, Emmanuelle, Campion, Dominique, Dartigues, Jean François, Deleuze, Jean François, Lambert, Jean Charles, Redon, Richard, Ludwig, Thomas, Grenier-Boley, Benjamin, Letort, Sébastien, Lindenbaum, Pierre, Meyer, Vincent, Quenez, Olivier, Dina, Christian, Bellenguez, Céline, Charbonnier-Le Clézio, Camille, Giemza, Joanna, Chatel, Stéphanie, Férec, Claude, Le Marec, Hervé, Letenneur, Luc, Nicolas, Gaël, Rouault, Karen, Bacq, Delphine, Boland, Anne, Lechner, Doris, Wijmenga, Cisca, Swertz, Morris A., Eline Slagboom, P., Van Ommen, Gert Jan B., Van Duijn, Cornelia M., Boomsma, Dorret I., De Bakker, Paul I.W., Bovenberg, Jasper A., De Craen, Anton J.M., Beekman, Marian, Hofman, Albert, Willemsen, Gonneke, Wolffenbuttel, Bruce, Platteel, Mathieu, Du, Yuanping, Chen, Ruoyan, Cao, Hongzhi, Cao, Rui, Sun, Yushen, Sujie Cao, Jeremy, Van Dijk, Freerk, Neerincx, Pieter B.T., Deelen, Patrick, Dijkstra, Martijn, Byelas, George, Kanterakis, Alexandros, Bot, Jan, Ye, Kai, Lameijer, Eric Wubbo, Vermaat, Martijn, Laros, Jeroen F.J., Den Dunnen, Johan T., De Knijff, Peter, Karssen, Lennart C., Van Leeuwen, Elisa M., Amin, Najaf, Koval, Vyacheslav, Rivadeneira, Fernando, Estrada, Karol, Hehir-Kwa, Jayne Y., De Ligt, Joep, Abdellaoui, Abdel, Hottenga, Jouke Jan, Mathijs Kattenberg, V., Van Enckevort, David, Mei, Hailiang, Santcroos, Mark, Van Schaik, Barbera D.C., Handsaker, Robert E., McCarroll, Steven A., Eichler, Evan E., Ko, Arthur, Sudmant, Peter, Francioli, Laurent C., Kloosterman, Wigard P., Nijman, Isaac J., Guryev, Victor, Pasquier, Laurent, Flori, Elisabeth, Gonzales, Marie, Bénéteau, Claire, Boute, Odile, Attié-Bitach, Tania, Roume, Joelle, Goujon, Louise, Akloul, Linda, Odent, Sylvie, Watrin, Erwan, Dupé, Valérie, De Tayrac, Marie, and David, Véronique

Published
2019

15. Integrated clinical and omics approach to rare diseases: Novel genes and oligogenic inheritance in holoprosencephaly

Author

CMM Groep Kaaij, Genetica Klinische Genetica, Cancer, CMM Groep De Ridder, Child Health, CMM Groep Kloosterman, CMM USEQ Facility, Hubrecht Institute with UMC, Kim, Artem, Savary, Clara, Dubourg, Christèle, Carré, Wilfrid, Mouden, Charlotte, Hamdi-Rozé, Houda, Guyodo, Hélène, Douce, Jerome Le, Génin, Emmanuelle, Campion, Dominique, Dartigues, Jean François, Deleuze, Jean François, Lambert, Jean Charles, Redon, Richard, Ludwig, Thomas, Grenier-Boley, Benjamin, Letort, Sébastien, Lindenbaum, Pierre, Meyer, Vincent, Quenez, Olivier, Dina, Christian, Bellenguez, Céline, Charbonnier-Le Clézio, Camille, Giemza, Joanna, Chatel, Stéphanie, Férec, Claude, Le Marec, Hervé, Letenneur, Luc, Nicolas, Gaël, Rouault, Karen, Bacq, Delphine, Boland, Anne, Lechner, Doris, Wijmenga, Cisca, Swertz, Morris A., Eline Slagboom, P., Van Ommen, Gert Jan B., Van Duijn, Cornelia M., Boomsma, Dorret I., De Bakker, Paul I.W., Bovenberg, Jasper A., De Craen, Anton J.M., Beekman, Marian, Hofman, Albert, Willemsen, Gonneke, Wolffenbuttel, Bruce, Platteel, Mathieu, Du, Yuanping, Chen, Ruoyan, Cao, Hongzhi, Cao, Rui, Sun, Yushen, Sujie Cao, Jeremy, Van Dijk, Freerk, Neerincx, Pieter B.T., Deelen, Patrick, Dijkstra, Martijn, Byelas, George, Kanterakis, Alexandros, Bot, Jan, Ye, Kai, Lameijer, Eric Wubbo, Vermaat, Martijn, Laros, Jeroen F.J., Den Dunnen, Johan T., De Knijff, Peter, Karssen, Lennart C., Van Leeuwen, Elisa M., Amin, Najaf, Koval, Vyacheslav, Rivadeneira, Fernando, Estrada, Karol, Hehir-Kwa, Jayne Y., De Ligt, Joep, Abdellaoui, Abdel, Hottenga, Jouke Jan, Mathijs Kattenberg, V., Van Enckevort, David, Mei, Hailiang, Santcroos, Mark, Van Schaik, Barbera D.C., Handsaker, Robert E., McCarroll, Steven A., Eichler, Evan E., Ko, Arthur, Sudmant, Peter, Francioli, Laurent C., Kloosterman, Wigard P., Nijman, Isaac J., Guryev, Victor, Pasquier, Laurent, Flori, Elisabeth, Gonzales, Marie, Bénéteau, Claire, Boute, Odile, Attié-Bitach, Tania, Roume, Joelle, Goujon, Louise, Akloul, Linda, Odent, Sylvie, Watrin, Erwan, Dupé, Valérie, De Tayrac, Marie, David, Véronique, CMM Groep Kaaij, Genetica Klinische Genetica, Cancer, CMM Groep De Ridder, Child Health, CMM Groep Kloosterman, CMM USEQ Facility, Hubrecht Institute with UMC, Kim, Artem, Savary, Clara, Dubourg, Christèle, Carré, Wilfrid, Mouden, Charlotte, Hamdi-Rozé, Houda, Guyodo, Hélène, Douce, Jerome Le, Génin, Emmanuelle, Campion, Dominique, Dartigues, Jean François, Deleuze, Jean François, Lambert, Jean Charles, Redon, Richard, Ludwig, Thomas, Grenier-Boley, Benjamin, Letort, Sébastien, Lindenbaum, Pierre, Meyer, Vincent, Quenez, Olivier, Dina, Christian, Bellenguez, Céline, Charbonnier-Le Clézio, Camille, Giemza, Joanna, Chatel, Stéphanie, Férec, Claude, Le Marec, Hervé, Letenneur, Luc, Nicolas, Gaël, Rouault, Karen, Bacq, Delphine, Boland, Anne, Lechner, Doris, Wijmenga, Cisca, Swertz, Morris A., Eline Slagboom, P., Van Ommen, Gert Jan B., Van Duijn, Cornelia M., Boomsma, Dorret I., De Bakker, Paul I.W., Bovenberg, Jasper A., De Craen, Anton J.M., Beekman, Marian, Hofman, Albert, Willemsen, Gonneke, Wolffenbuttel, Bruce, Platteel, Mathieu, Du, Yuanping, Chen, Ruoyan, Cao, Hongzhi, Cao, Rui, Sun, Yushen, Sujie Cao, Jeremy, Van Dijk, Freerk, Neerincx, Pieter B.T., Deelen, Patrick, Dijkstra, Martijn, Byelas, George, Kanterakis, Alexandros, Bot, Jan, Ye, Kai, Lameijer, Eric Wubbo, Vermaat, Martijn, Laros, Jeroen F.J., Den Dunnen, Johan T., De Knijff, Peter, Karssen, Lennart C., Van Leeuwen, Elisa M., Amin, Najaf, Koval, Vyacheslav, Rivadeneira, Fernando, Estrada, Karol, Hehir-Kwa, Jayne Y., De Ligt, Joep, Abdellaoui, Abdel, Hottenga, Jouke Jan, Mathijs Kattenberg, V., Van Enckevort, David, Mei, Hailiang, Santcroos, Mark, Van Schaik, Barbera D.C., Handsaker, Robert E., McCarroll, Steven A., Eichler, Evan E., Ko, Arthur, Sudmant, Peter, Francioli, Laurent C., Kloosterman, Wigard P., Nijman, Isaac J., Guryev, Victor, Pasquier, Laurent, Flori, Elisabeth, Gonzales, Marie, Bénéteau, Claire, Boute, Odile, Attié-Bitach, Tania, Roume, Joelle, Goujon, Louise, Akloul, Linda, Odent, Sylvie, Watrin, Erwan, Dupé, Valérie, De Tayrac, Marie, and David, Véronique

Published
2019

16. Whole genome comparative studies between chicken and turkey and their implications for avian genome evolution

Author

Carré Wilfrid, Gaginskaya Elena, Deryusheva Svetlana, Groenen Martien AM, Crooijmans Richard PMA, Fillon Valérie, Vignal Alain, Tempest Helen G, Robertson Lindsay B, Griffin Darren K, Waddington David, Talbot Richard, Völker Martin, Masabanda Julio S, and Burt Dave W

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Comparative genomics is a powerful means of establishing inter-specific relationships between gene function/location and allows insight into genomic rearrangements, conservation and evolutionary phylogeny. The availability of the complete sequence of the chicken genome has initiated the development of detailed genomic information in other birds including turkey, an agriculturally important species where mapping has hitherto focused on linkage with limited physical information. No molecular study has yet examined conservation of avian microchromosomes, nor differences in copy number variants (CNVs) between birds. Results We present a detailed comparative cytogenetic map between chicken and turkey based on reciprocal chromosome painting and mapping of 338 chicken BACs to turkey metaphases. Two inter-chromosomal changes (both involving centromeres) and three pericentric inversions have been identified between chicken and turkey; and array CGH identified 16 inter-specific CNVs. Conclusion This is the first study to combine the modalities of zoo-FISH and array CGH between different avian species. The first insight into the conservation of microchromosomes, the first comparative cytogenetic map of any bird and the first appraisal of CNVs between birds is provided. Results suggest that avian genomes have remained relatively stable during evolution compared to mammalian equivalents.

Published
2008
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17. HCN1 mutation spectrum: From neonatal epileptic encephalopathy to benign generalized epilepsy and beyond

Author

Genetica Klinische Genetica, Brain, Child Health, Genetica Groep Koeleman, Circulatory Health, Marini, Carla, Porro, Alessandro, Rastetter, Agnès, Dalle, Carine, Rivolta, Ilaria, Bauer, Daniel, Oegema, Renske, Nava, Caroline, Parrini, Elena, Mei, Davide, Mercer, Catherine, Dhamija, Radhika, Chambers, Chelsea, Coubes, Christine, Thévenon, Julien, Kuentz, Paul, Julia, Sophie, Pasquier, Laurent, Dubourg, Christèle, Carré, Wilfrid, Rosati, Anna, Melani, Federico, Pisano, Tiziana, Giardino, Maria, Innes, A. Micheil, Alembik, Yves, Scheidecker, Sophie, Santos, Manuela, Figueiroa, Sonia, Garrido, Cristina, Fusco, Carlo, Frattini, Daniele, Spagnoli, Carlotta, Binda, Anna, Granata, Tiziana, Ragona, Francesca, Freri, Elena, Franceschetti, Silvana, Canafoglia, Laura, Castellotti, Barbara, Gellera, Cinzia, Milanesi, Raffaella, Mancardi, Maria Margherita, Clark, Damien R., Kok, Fernando, Helbig, Katherine L., Ichikawa, Shoji, Sadler, Laurie, Neupauerová, Jana, Laššuthova, Petra, Štěrbová, Katalin, Laridon, Annick, Brilstra, Eva, Koeleman, Bobby, Lemke, Johannes R., Zara, Federico, Striano, Pasquale, Soblet, Julie, Smits, Guillaume, Deconinck, Nicolas, Barbuti, Andrea, Difrancesco, Dario, Leguern, Eric, Guerrini, Renzo, Santoro, Bina, Hamacher, Kay, Thiel, Gerhard, Moroni, Anna, Difrancesco, Jacopo C., Depienne, Christel, Genetica Klinische Genetica, Brain, Child Health, Genetica Groep Koeleman, Circulatory Health, Marini, Carla, Porro, Alessandro, Rastetter, Agnès, Dalle, Carine, Rivolta, Ilaria, Bauer, Daniel, Oegema, Renske, Nava, Caroline, Parrini, Elena, Mei, Davide, Mercer, Catherine, Dhamija, Radhika, Chambers, Chelsea, Coubes, Christine, Thévenon, Julien, Kuentz, Paul, Julia, Sophie, Pasquier, Laurent, Dubourg, Christèle, Carré, Wilfrid, Rosati, Anna, Melani, Federico, Pisano, Tiziana, Giardino, Maria, Innes, A. Micheil, Alembik, Yves, Scheidecker, Sophie, Santos, Manuela, Figueiroa, Sonia, Garrido, Cristina, Fusco, Carlo, Frattini, Daniele, Spagnoli, Carlotta, Binda, Anna, Granata, Tiziana, Ragona, Francesca, Freri, Elena, Franceschetti, Silvana, Canafoglia, Laura, Castellotti, Barbara, Gellera, Cinzia, Milanesi, Raffaella, Mancardi, Maria Margherita, Clark, Damien R., Kok, Fernando, Helbig, Katherine L., Ichikawa, Shoji, Sadler, Laurie, Neupauerová, Jana, Laššuthova, Petra, Štěrbová, Katalin, Laridon, Annick, Brilstra, Eva, Koeleman, Bobby, Lemke, Johannes R., Zara, Federico, Striano, Pasquale, Soblet, Julie, Smits, Guillaume, Deconinck, Nicolas, Barbuti, Andrea, Difrancesco, Dario, Leguern, Eric, Guerrini, Renzo, Santoro, Bina, Hamacher, Kay, Thiel, Gerhard, Moroni, Anna, Difrancesco, Jacopo C., and Depienne, Christel

Published
2018

18. HCN1mutation spectrum: from neonatal epileptic encephalopathy to benign generalized epilepsy and beyond

Author

Marini, Carla, primary, Porro, Alessandro, additional, Rastetter, Agnès, additional, Dalle, Carine, additional, Rivolta, Ilaria, additional, Bauer, Daniel, additional, Oegema, Renske, additional, Nava, Caroline, additional, Parrini, Elena, additional, Mei, Davide, additional, Mercer, Catherine, additional, Dhamija, Radhika, additional, Chambers, Chelsea, additional, Coubes, Christine, additional, Thévenon, Julien, additional, Kuentz, Paul, additional, Julia, Sophie, additional, Pasquier, Laurent, additional, Dubourg, Christèle, additional, Carré, Wilfrid, additional, Rosati, Anna, additional, Melani, Federico, additional, Pisano, Tiziana, additional, Giardino, Maria, additional, Innes, A Micheil, additional, Alembik, Yves, additional, Scheidecker, Sophie, additional, Santos, Manuela, additional, Figueiroa, Sonia, additional, Garrido, Cristina, additional, Fusco, Carlo, additional, Frattini, Daniele, additional, Spagnoli, Carlotta, additional, Binda, Anna, additional, Granata, Tiziana, additional, Ragona, Francesca, additional, Freri, Elena, additional, Franceschetti, Silvana, additional, Canafoglia, Laura, additional, Castellotti, Barbara, additional, Gellera, Cinzia, additional, Milanesi, Raffaella, additional, Mancardi, Maria Margherita, additional, Clark, Damien R, additional, Kok, Fernando, additional, Helbig, Katherine L, additional, Ichikawa, Shoji, additional, Sadler, Laurie, additional, Neupauerová, Jana, additional, Laššuthova, Petra, additional, Štěrbová, Katalin, additional, Laridon, Annick, additional, Brilstra, Eva, additional, Koeleman, Bobby, additional, Lemke, Johannes R, additional, Zara, Federico, additional, Striano, Pasquale, additional, Soblet, Julie, additional, Smits, Guillaume, additional, Deconinck, Nicolas, additional, Barbuti, Andrea, additional, DiFrancesco, Dario, additional, LeGuern, Eric, additional, Guerrini, Renzo, additional, Santoro, Bina, additional, Hamacher, Kay, additional, Thiel, Gerhard, additional, Moroni, Anna, additional, DiFrancesco, Jacopo C, additional, and Depienne, Christel, additional

Published
2018
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19. Integrated Clinical and Omics Approach to Rare Diseases: Novel Genes and Oligogenic Inheritance in Holoprosencephaly

Author

Kim, Artem, primary, Savary, Clara, additional, Dubourg, Christèle, additional, Carré, Wilfrid, additional, Mouden, Charlotte, additional, Hamdi-Rozé, Houda, additional, Guyodo, Hélène, additional, Le Douce, Jerome, additional, Pasquier, Laurent, additional, Flori, Elisabeth, additional, Gonzales, Marie, additional, Bénéteau, Claire, additional, Boute, Odile, additional, Attié-Bitach, Tania, additional, Roume, Joelle, additional, Goujon, Louise, additional, Akloul, Linda, additional, Watrin, Erwan, additional, Dupé, Valérie, additional, Odent, Sylvie, additional, de Tayrac, Marie, additional, and David, Véronique, additional

Published
2018
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20. De Novo Mutations in Protein Kinase Genes CAMK2A and CAMK2B Cause Intellectual Disability

Author

Genetica Klinische Genetica, Child Health, Genetica Sectie Genoomdiagnostiek, Küry, Sébastien, van Woerden, Geeske M, Besnard, Thomas, Proietti Onori, Martina, Latypova, Xénia, Towne, Meghan C, Cho, Megan T., Prescott, Trine E, Ploeg, Melissa A, Sanders, Jan-Stephan, Stessman, Holly A F, Pujol, Aurora, Distel, Ben, Robak, Laurie A, Bernstein, Jonathan A, Denommé-Pichon, Anne-Sophie, Lesca, Gaëtan, Sellars, Elizabeth A, Berg, Jonathan, Carré, Wilfrid, Busk, Øyvind Løvold, van Bon, Bregje W M, Waugh, Jeff L, Deardorff, Matthew, Hoganson, George E, Bosanko, Katherine B, Johnson, Diana S, Dabir, Tabib, Holla, Øystein Lunde, Sarkar, Ajoy, Tveten, Kristian, de Bellescize, Julitta, Braathen, Geir J, Terhal, Paulien A, Grange, Dorothy K, van Haeringen, Arie, Lam, Christina, Mirzaa, Ghayda, Burton, Jennifer, Bhoj, Elizabeth J., Douglas, Jessica, Santani, Avni B, Nesbitt, Addie I, Helbig, Katherine L, Andrews, Marisa V, Begtrup, Amber, Tang, Sha, van Gassen, Koen L I, Juusola, Jane, Verbeek, Nienke E, Undiagnosed Diseases Network, Genetica Klinische Genetica, Child Health, Genetica Sectie Genoomdiagnostiek, Küry, Sébastien, van Woerden, Geeske M, Besnard, Thomas, Proietti Onori, Martina, Latypova, Xénia, Towne, Meghan C, Cho, Megan T., Prescott, Trine E, Ploeg, Melissa A, Sanders, Jan-Stephan, Stessman, Holly A F, Pujol, Aurora, Distel, Ben, Robak, Laurie A, Bernstein, Jonathan A, Denommé-Pichon, Anne-Sophie, Lesca, Gaëtan, Sellars, Elizabeth A, Berg, Jonathan, Carré, Wilfrid, Busk, Øyvind Løvold, van Bon, Bregje W M, Waugh, Jeff L, Deardorff, Matthew, Hoganson, George E, Bosanko, Katherine B, Johnson, Diana S, Dabir, Tabib, Holla, Øystein Lunde, Sarkar, Ajoy, Tveten, Kristian, de Bellescize, Julitta, Braathen, Geir J, Terhal, Paulien A, Grange, Dorothy K, van Haeringen, Arie, Lam, Christina, Mirzaa, Ghayda, Burton, Jennifer, Bhoj, Elizabeth J., Douglas, Jessica, Santani, Avni B, Nesbitt, Addie I, Helbig, Katherine L, Andrews, Marisa V, Begtrup, Amber, Tang, Sha, van Gassen, Koen L I, Juusola, Jane, Verbeek, Nienke E, and Undiagnosed Diseases Network

Published
2017

21. Mutational Spectrum in Holoprosencephaly Shows That FGF is a New Major Signaling Pathway

Author

Dubourg, Christèle, Carré, Wilfrid, Hamdi-Rozé, Houda, Mouden, Charlotte, Roume, Joëlle, Abdelmajid, Benmansour, Amram, Daniel, Baumann, Clarisse, Chassaing, Nicolas, Coubes, Christine, Faivre-Olivier, Laurence, Ginglinger, Emmanuelle, Gonzales, Marie, Levy-Mozziconacci, Annie, Lynch, Sally-Ann, Naudion, Sophie, Pasquier, Laurent, Poidvin, Amélie, Prieur, Fabienne, Sarda, Pierre, Toutain, Annick, Dupé, Valérie, Akloul, Linda, Odent, Sylvie, Tayrac, Marie, David, Véronique, Institut de Génétique et Développement de Rennes (IGDR), Université de Rennes (UR)-Centre National de la Recherche Scientifique (CNRS)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), Service de biologie moléculaire, Hôpital Pontchaillou, Service de Génétique, Hôpital Poissy-saint Germain, Service de Pneumologie [CHI Créteil], CHI Créteil, Département de Génétique Médicale, Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré, Centre Hospitalier Universitaire de Toulouse (CHU Toulouse), Service de Génétique Clinique, Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), Centre de génétique - Centre de référence des maladies rares, anomalies du développement et syndromes malformatifs (CHU de Dijon), Centre Hospitalier Universitaire de Dijon - Hôpital François Mitterrand (CHU Dijon), Centre Hospitalier Emile Muller [Mulhouse] (CH E.Muller Mulhouse), Groupe Hospitalier de Territoire Haute Alsace (GHTHA), CHU Trousseau [APHP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Service de Gynécologie et Obstétrique [Marseille], Hôpital de la Conception [CHU - APHM] (LA CONCEPTION), CHU Bordeaux [Bordeaux], CHU Pontchaillou [Rennes], Service de neuropédiatrie et maladies métaboliques [CHU Robert-Debré], Centre Hospitalier Universitaire de Saint-Etienne [CHU Saint-Etienne] (CHU ST-E), CHU Montpellier, Service de génétique [Tours], Centre Hospitalier Régional Universitaire de Tours (CHRU Tours)-Hôpital Bretonneau, Service de génétique clinique [Rennes], Université de Rennes (UR)-CHU Pontchaillou [Rennes]-hôpital Sud, Chung Hua University, Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Centre National de la Recherche Scientifique (CNRS)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), Centre Hospitalier Universitaire de Toulouse, Service de génétique et embryologie médicales [CHU Trousseau], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU), Centre Hospitalier Universitaire de Saint-Etienne (CHU de Saint-Etienne), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-CHU Pontchaillou [Rennes]-hôpital Sud, and Hôpital Bretonneau-Centre Hospitalier Régional Universitaire de Tours (CHRU Tours)

Subjects
Male, musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, multigenic inheritance, brain malformation, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Fibroblast Growth Factors, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Mutation, Holoprosencephaly, Humans, Female, Genetic Predisposition to Disease, Hedgehog Proteins, targeted NGS, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Receptor, Fibroblast Growth Factor, Type 1, FGF signaling pathway, Signal Transduction
Abstract

International audience; Holoprosencephaly (HPE) is the most common congenital cerebral malformation in humans, characterized by impaired forebrain cleavage and midline facial anomalies. It presents a high heterogeneity, both in clinics and genetics. We have developed a novel targeted next-generation sequencing (NGS) assay and screened a cohort of 257 HPE patients. Mutations with high confidence in their deleterious effect were identified in approximately 24% of the cases and were held for diagnosis, whereas variants of uncertain significance were identified in 10% of cases. This study provides a new classification of genes that are involved in HPE. SHH, ZIC2, and SIX3 remain the top genes in term of frequency with GLI2, and are followed by FGF8 and FGFR1. The three minor HPE genes identified by our study are DLL1, DISP1, and SUFU. Here, we demonstrate that fibroblast growth factor signaling must now be considered a major pathway involved in HPE. Interestingly, several cases of double mutations were found and argue for a polygenic inheritance of HPE. Altogether, it supports that the implementation of NGS in HPE diagnosis is required to improve genetic counseling.

Published
2016
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22. microRNAs and the evolution of complex multicellularity: identification of a large, diverse complement of microRNAs in the brown alga Ectocarpus

Author

Tarver, James E, Cormier, Alexandre, Pinzón, Natalia, Taylor, Richard S, Carré, Wilfrid, Strittmatter, Martina, Seitz, Hervé, Coelho, Susana M., Cock, J. Mark, School of Earth Sciences [Bristol], University of Bristol [Bristol], Genome Evolution Laboratory, National University of Ireland Maynooth (Maynooth University), Laboratoire de Biologie Intégrative des Modèles Marins (LBI2M), Station biologique de Roscoff [Roscoff] (SBR), Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), Institut de génétique humaine (IGH), and Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Evolution, Molecular, MicroRNAs, Genome, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Genetic Loci, Sequence Analysis, RNA, Genetic Variation, Genomics, Phaeophyta, Polymerase Chain Reaction
Abstract

International audience; There is currently convincing evidence that microR-NAs have evolved independently in at least six different eukaryotic lineages: animals, land plants, chloro-phyte green algae, demosponges, slime molds and brown algae. MicroRNAs from different lineages are not homologous but some structural features are strongly conserved across the eukaryotic tree allowing the application of stringent criteria to identify novel microRNA loci. A large set of 63 microRNA families was identified in the brown alga Ectocar-pus based on mapping of RNA-seq data and nine microRNAs were confirmed by northern blotting. The Ectocarpus microRNAs are highly diverse at the sequence level with few multi-gene families, and do not tend to occur in clusters but exhibit some highly conserved structural features such as the presence of a uracil at the first residue. No homologues of Ecto-carpus microRNAs were found in other stramenopile genomes indicating that they emerged late in stra-menopile evolution and are perhaps specific to the brown algae. The large number of microRNA loci in Ectocarpus is consistent with the developmental complexity of many brown algal species and supports a proposed link between the emergence and expansion of microRNA regulatory systems and the evolution of complex multicellularity.

Published
2015
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23. DISP1deficiency: Monoallelic and biallelic variants cause a spectrum of midline craniofacial malformations

Author

Lavillaureix, Alinoë, Rollier, Paul, Kim, Artem, Panasenkava, Veranika, De Tayrac, Marie, Carré, Wilfrid, Guyodo, Hélène, Faoucher, Marie, Poirel, Elisabeth, Akloul, Linda, Quelin, Chloe, Whalen, Sandra, Bos, Jessica, Broekema, Marjoleine, van Hagen, Johanna M., Grand, Katheryn, Allen-Sharpley, Michelle, Magness, Emily, McLean, Scott, Kayserili, Hülya, Altunoglu, Umut, En Qi Chong, Angie, Xue, Shifeng, Jeanne, Mederic, Almontashiri, Naif, Habhab, Wisam, Vanlerberghe, Clemence, Faivre, Laurence, Viora Dupont, Eleonore, Philippe, Christophe, Safraou, Hana, Laffargue, Fanny, Mittendorf, Luisa, Abou Jamra, Rami, Patil, Siddaramappa Jagdish, Dalal, Ashwin, Sarma, Asodu Sandeep, Keren, Boris, Reversade, Bruno, Dubourg, Christèle, Odent, Sylvie, and Dupé, Valérie

Abstract

DISP1encodes a transmembrane protein that regulates the secretion of the morphogen, Sonic hedgehog,a deficiency of which is a major cause of holoprosencephaly (HPE). This disorder covers a spectrum of brain and midline craniofacial malformations. The objective of the present study was to better delineate the clinical phenotypes associated with division transporter dispatched-1 (DISP1) variants.

Published
2024
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25. HCN1 mutation spectrum: from neonatal epileptic encephalopathy to benign generalized epilepsy and beyond.

Author

Marini, Carla, Porro, Alessandro, Rastetter, Agnès, Dalle, Carine, Rivolta, Ilaria, Bauer, Daniel, Oegema, Renske, Nava, Caroline, Parrini, Elena, Mei, Davide, Mercer, Catherine, Dhamija, Radhika, Chambers, Chelsea, Coubes, Christine, Thévenon, Julien, Kuentz, Paul, Julia, Sophie, Pasquier, Laurent, Dubourg, Christèle, and Carré, Wilfrid

Subjects
NEUROLOGICAL disorders, CYCLIC nucleotides, HYPERPOLARIZATION (Cytology), EPILEPSY, INTELLECTUAL disabilities
Abstract

Hyperpolarization-activated cyclic nucleotide-gated (HCN) channels control neuronal excitability and their dysfunction has been linked to epileptogenesis but few individuals with neurological disorders related to variants altering HCN channels have been reported so far. In 2014, we described five individuals with epileptic encephalopathy due to de novo HCN1 variants. To delineate HCN1-related disorders and investigate genotype-phenotype correlations further, we assembled a cohort of 33 unpublished patients with novel pathogenic or likely pathogenic variants: 19 probands carrying 14 different de novo mutations and four families with dominantly inherited variants segregating with epilepsy in 14 individuals, but not penetrant in six additional individuals. Sporadic patients had epilepsy with median onset at age 7 months and in 36% the first seizure occurred during a febrile illness. Overall, considering familial and sporadic patients, the predominant phenotypes were mild, including genetic generalized epilepsies and genetic epilepsy with febrile seizures plus (GEFS+) spectrum. About 20% manifested neonatal/infantile onset otherwise unclassified epileptic encephalopathy. The study also included eight patients with variants of unknown significance: one adopted patient had two HCN1 variants, four probands had intellectual disability without seizures, and three individuals had missense variants inherited from an asymptomatic parent. Of the 18 novel pathogenic missense variants identified, 12 were associated with severe phenotypes and clustered within or close to transmembrane domains, while variants segregating with milder phenotypes were located outside transmembrane domains, in the intracellular N- and C-terminal parts of the channel. Five recurrent variants were associated with similar phenotypes. Using whole-cell patch-clamp, we showed that the impact of 12 selected variants ranged from complete loss-of-function to significant shifts in activation kinetics and/or voltage dependence. Functional analysis of three different substitutions altering Gly391 revealed that these variants had different consequences on channel biophysical properties. The Gly391Asp variant, associated with the most severe, neonatal phenotype, also had the most severe impact on channel function. Molecular dynamics simulation on channel structure showed that homotetramers were not conducting ions because the permeation path was blocked by cation(s) strongly complexed to the Asp residue, whereas heterotetramers showed an instantaneous current component possibly linked to deformation of the channel pore. In conclusion, our results considerably expand the clinical spectrum related to HCN1 variants to include common generalized epilepsy phenotypes and further illustrate how HCN1 has a pivotal function in brain development and control of neuronal excitability. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Toward a French cyber Galaxy ?

Author

Caron, Christophe, Carré, Wilfrid, Cormier, Alexandre, Derozier, Sandra, Giacomoni, Franck, Inizan, Olivier, Le Corguillé, Gildas, Lermine, Alban, Maman Haddad, SARAH, Pericard, Pierre, Samson, Franck, Station biologique, Centre National de la Recherche Scientifique (CNRS), Unité Mathématique Informatique et Génome (MIG), Institut National de la Recherche Agronomique (INRA), Unité de Nutrition Humaine (UNH), Institut National de la Recherche Agronomique (INRA)-Université d'Auvergne - Clermont-Ferrand I (UdA)-Clermont Université, Unité de Recherche Génomique Info (URGI), Institut Curie [Paris], Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT), 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
Galaxy, training, workflow, NGS, tools integration, data sharing, [SDV]Life Sciences [q-bio], [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, [INFO]Computer Science [cs], [MATH]Mathematics [math]
Abstract

International audience; The success of the open web based platform “Galaxy” is growing among scientific communities. The French Institute of Bioinformatics (IFB) wishes to initiate a collaborative work dedicated to scientific workflows and especially to the Galaxy platform. We report here the main items on which future collaborations could be build: (i) software and hardware architecture, (ii) tools integration and (iii) training. High throughput technologies advent significantly alters analysis behaviour and strategy with mobilization of new infrastructure, new tools and new skills. IFB decided to conduct a cross action on "workflows" data analysis solutions, and especially on the Galaxy platform. The first item called "software and hardware architecture" addresses the operational issues in production environments, the potential for automating deployment tasks and the monitoring solutions for Galaxy servers. With the second one, "Tools integration" we aim to provide processes facilitating tool interfacing in a Galaxy instance. Priority will be the development of a good practice guide, as well as a technology watch around the methods proposed by the international community. We also want to promote the sharing of training activities at national level (such as the Aviesan Bioinformatics school, January 2013 - http://galaxy-ecole.sb-roscoff.fr/) and ensure a smooth transition to new uses, such as E-learning. A first working group is already effective. Previous items will be improved in the coming months thanks to a specific dedicated wiki and the first French Galaxy Workshop this autumn.

Published
2013

27. Homozygous STIL Mutation Causes Holoprosencephaly and Microcephaly in Two Siblings

Author

Mouden, Charlotte, primary, de Tayrac, Marie, additional, Dubourg, Christèle, additional, Rose, Sophie, additional, Carré, Wilfrid, additional, Hamdi-Rozé, Houda, additional, Babron, Marie-Claude, additional, Akloul, Linda, additional, Héron-Longe, Bénédicte, additional, Odent, Sylvie, additional, Dupé, Valérie, additional, Giet, Régis, additional, and David, Véronique, additional

Published
2015
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28. Mapping quantitative trait loci affecting fatness and breast muscle weight in meat-type chicken lines divergently selected on abdominal fatness

Author

Lagarrigue, Sandrine, Pitel, Frédérique, Carré, Wilfrid, Abasht, Behnam, Le Roy, Pascale, Neau, André, Sourdioux, Michel, Simon, Jean, Aggrey, Sammy, Leclercq, Bernard, Renseigné, Non, and Douaire, Madeleine

Subjects
[SDV.GEN.GA]Life Sciences [q-bio]/Genetics/Animal genetics, quantitative trait locus, chicken, abdominal fat, food and beverages, breast muscle
Abstract

International audience; Quantitative trait loci (QTL) for abdominal fatness and breast muscle weight were investigated in a three-generation design performed by inter-crossing two experimental meat-type chicken lines that were divergently selected on abdominal fatness. A total of 585 F$_{2}$ male offspring from 5 F$_{1}$ sires and 38 F$_{1}$ dams were recorded at 8 weeks of age for live body, abdominal fat and breast muscle weights. One hundred-twenty nine microsatellite markers, evenly located throughout the genome and heterozygous for most of the F$_{1}$ sires, were used for genotyping the F$_2$ birds. In each sire family, those offspring exhibiting the most extreme values for each trait were genotyped. Multipoint QTL analyses using maximum likelihood methods were performed for abdominal fat and breast muscle weights, which were corrected for the effects of 8-week body weight, dam and hatching group. Isolated markers were assessed by analyses of variance. Two significant QTL were identified on chromosomes 1 and 5 with effects of about one within-family residual standard deviation. One breast muscle QTL was identified on GGA1 with an effect of 2.0 within-family residual standard deviation.

Published
2006

29. Transcriptional analysis of abdominal fat in genetically fat and lean chickens reveals adipokines, lipogenic genes and a link between hemostasis and leanness

Author

Resnyk, Christopher W, Resnyk, Christopher W, Carré, Wilfrid, Wang, Xiaofei, Porter, Tom E, Simon, Jean, Le Bihan-Duval, Elisabeth, Duclos, Michael J, Aggrey, Sam E, Cogburn, Larry A, Resnyk, Christopher W, Resnyk, Christopher W, Carré, Wilfrid, Wang, Xiaofei, Porter, Tom E, Simon, Jean, Le Bihan-Duval, Elisabeth, Duclos, Michael J, Aggrey, Sam E, and Cogburn, Larry A

Abstract

This descriptive study of the abdominal fat transcriptome takes advantage of two experimental lines of meat-type chickens (Gallus domesticus), which were selected over seven generations for a large difference in abdominal (visceral) fatness. At the age of selection (9 wk), the fat line (FL) and lean line (LL) chickens exhibit a 2.5-fold difference in abdominal fat weight, while their feed intake and body weight are similar. These unique avian models were originally created to unravel genetic and endocrine regulation of adiposity and lipogenesis in meat-type chickens. The Del-Mar 14K Chicken Integrated Systems microarray was used for a time-course analysis of gene expression in abdominal fat of FL and LL chickens during juvenile development (1–11 weeks of age). Microarray analysis of abdominal fat in FL and LL chickens revealed 131 differentially expressed (DE) genes (FDR≤0.05) as the main effect of genotype, 254 DE genes as an interaction of age and genotype and 3,195 DE genes (FDR≤0.01) as the main effect of age. The most notable discoveries in the abdominal fat transcriptome were higher expression of many genes involved in blood coagulation in the LL and up-regulation of numerous adipogenic and lipogenic genes in FL chickens. Many of these DE genes belong to pathways controlling the synthesis, metabolism and transport of lipids or endocrine signaling pathways activated by adipokines, retinoid and thyroid hormones. The present study provides a dynamic view of differential gene transcription in abdominal fat of chickens genetically selected for fatness (FL) or leanness (LL). Remarkably, the LL chickens over-express a large number of hemostatic genes that could be involved in proteolytic processing of adipokines and endocrine factors, which contribute to their higher lipolysis and export of stored lipids. Some of these changes are already present at 1 week of age before the divergence in fatness. In contrast, the FL chickens have enhanced expression of numerous lipog

Published
2013

32. Functional analysis of the porcine USP18 and its role during porcine arterivirus replication

Author

Ait-Ali, Tahar, primary, Wilson, Alison W, additional, Finlayson, Heather, additional, Carré, Wilfrid, additional, Ramaiahgari, Sreenivasa Chakravarthy, additional, Westcott, David G, additional, Waterfall, Martin, additional, Frossard, Jean-Pierre, additional, Baek, Kwang-Hyun, additional, Drew, Trevor W, additional, Bishop, Stephen C, additional, and Archibald, Alan L, additional

Published
2009
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33. Whole genome comparative studies between chicken and turkey and their implications for avian genome evolution

Author

Griffin, Darren K, primary, Robertson, Lindsay B, additional, Tempest, Helen G, additional, Vignal, Alain, additional, Fillon, Valérie, additional, Crooijmans, Richard PMA, additional, Groenen, Martien AM, additional, Deryusheva, Svetlana, additional, Gaginskaya, Elena, additional, Carré, Wilfrid, additional, Waddington, David, additional, Talbot, Richard, additional, Völker, Martin, additional, Masabanda, Julio S, additional, and Burt, Dave W, additional

Published
2008
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36. Integrated clinical and omics approach to rare diseases: novel genes and oligogenic inheritance in holoprosencephaly.

Author

Kim A, Savary C, Dubourg C, Carré W, Mouden C, Hamdi-Rozé H, Guyodo H, Douce JL, Pasquier L, Flori E, Gonzales M, Bénéteau C, Boute O, Attié-Bitach T, Roume J, Goujon L, Akloul L, Odent S, Watrin E, Dupé V, de Tayrac M, and David V

Subjects
Case-Control Studies, Comparative Genomic Hybridization, Exome genetics, Female, Humans, Male, Mutation, Pedigree, Phenotype, Holoprosencephaly genetics, Multifactorial Inheritance genetics, Rare Diseases genetics
Abstract

Holoprosencephaly is a pathology of forebrain development characterized by high phenotypic heterogeneity. The disease presents with various clinical manifestations at the cerebral or facial levels. Several genes have been implicated in holoprosencephaly but its genetic basis remains unclear: different transmission patterns have been described including autosomal dominant, recessive and digenic inheritance. Conventional molecular testing approaches result in a very low diagnostic yield and most cases remain unsolved. In our study, we address the possibility that genetically unsolved cases of holoprosencephaly present an oligogenic origin and result from combined inherited mutations in several genes. Twenty-six unrelated families, for whom no genetic cause of holoprosencephaly could be identified in clinical settings [whole exome sequencing and comparative genomic hybridization (CGH)-array analyses], were reanalysed under the hypothesis of oligogenic inheritance. Standard variant analysis was improved with a gene prioritization strategy based on clinical ontologies and gene co-expression networks. Clinical phenotyping and exploration of cross-species similarities were further performed on a family-by-family basis. Statistical validation was performed on 248 ancestrally similar control trios provided by the Genome of the Netherlands project and on 574 ancestrally matched controls provided by the French Exome Project. Variants of clinical interest were identified in 180 genes significantly associated with key pathways of forebrain development including sonic hedgehog (SHH) and primary cilia. Oligogenic events were observed in 10 families and involved both known and novel holoprosencephaly genes including recurrently mutated FAT1, NDST1, COL2A1 and SCUBE2. The incidence of oligogenic combinations was significantly higher in holoprosencephaly patients compared to two control populations (P < 10-9). We also show that depending on the affected genes, patients present with particular clinical features. This study reports novel disease genes and supports oligogenicity as clinically relevant model in holoprosencephaly. It also highlights key roles of SHH signalling and primary cilia in forebrain development. We hypothesize that distinction between different clinical manifestations of holoprosencephaly lies in the degree of overall functional impact on SHH signalling. Finally, we underline that integrating clinical phenotyping in genetic studies is a powerful tool to specify the clinical relevance of certain mutations.

Published
2019
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37. HCN1 mutation spectrum: from neonatal epileptic encephalopathy to benign generalized epilepsy and beyond.

Author

Marini C, Porro A, Rastetter A, Dalle C, Rivolta I, Bauer D, Oegema R, Nava C, Parrini E, Mei D, Mercer C, Dhamija R, Chambers C, Coubes C, Thévenon J, Kuentz P, Julia S, Pasquier L, Dubourg C, Carré W, Rosati A, Melani F, Pisano T, Giardino M, Innes AM, Alembik Y, Scheidecker S, Santos M, Figueiroa S, Garrido C, Fusco C, Frattini D, Spagnoli C, Binda A, Granata T, Ragona F, Freri E, Franceschetti S, Canafoglia L, Castellotti B, Gellera C, Milanesi R, Mancardi MM, Clark DR, Kok F, Helbig KL, Ichikawa S, Sadler L, Neupauerová J, Laššuthova P, Šterbová K, Laridon A, Brilstra E, Koeleman B, Lemke JR, Zara F, Striano P, Soblet J, Smits G, Deconinck N, Barbuti A, DiFrancesco D, LeGuern E, Guerrini R, Santoro B, Hamacher K, Thiel G, Moroni A, DiFrancesco JC, and Depienne C

Subjects
Adolescent, Adult, Aged, Animals, CHO Cells, Child, Child, Preschool, Cricetulus, Electric Stimulation, Female, Genetic Association Studies, Humans, Infant, Male, Membrane Potentials genetics, Middle Aged, Models, Molecular, Mutagenesis, Site-Directed methods, Young Adult, Epilepsy, Generalized genetics, Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels genetics, Mutation genetics, Potassium Channels genetics, Spasms, Infantile genetics
Abstract

Hyperpolarization-activated cyclic nucleotide-gated (HCN) channels control neuronal excitability and their dysfunction has been linked to epileptogenesis but few individuals with neurological disorders related to variants altering HCN channels have been reported so far. In 2014, we described five individuals with epileptic encephalopathy due to de novo HCN1 variants. To delineate HCN1-related disorders and investigate genotype-phenotype correlations further, we assembled a cohort of 33 unpublished patients with novel pathogenic or likely pathogenic variants: 19 probands carrying 14 different de novo mutations and four families with dominantly inherited variants segregating with epilepsy in 14 individuals, but not penetrant in six additional individuals. Sporadic patients had epilepsy with median onset at age 7 months and in 36% the first seizure occurred during a febrile illness. Overall, considering familial and sporadic patients, the predominant phenotypes were mild, including genetic generalized epilepsies and genetic epilepsy with febrile seizures plus (GEFS+) spectrum. About 20% manifested neonatal/infantile onset otherwise unclassified epileptic encephalopathy. The study also included eight patients with variants of unknown significance: one adopted patient had two HCN1 variants, four probands had intellectual disability without seizures, and three individuals had missense variants inherited from an asymptomatic parent. Of the 18 novel pathogenic missense variants identified, 12 were associated with severe phenotypes and clustered within or close to transmembrane domains, while variants segregating with milder phenotypes were located outside transmembrane domains, in the intracellular N- and C-terminal parts of the channel. Five recurrent variants were associated with similar phenotypes. Using whole-cell patch-clamp, we showed that the impact of 12 selected variants ranged from complete loss-of-function to significant shifts in activation kinetics and/or voltage dependence. Functional analysis of three different substitutions altering Gly391 revealed that these variants had different consequences on channel biophysical properties. The Gly391Asp variant, associated with the most severe, neonatal phenotype, also had the most severe impact on channel function. Molecular dynamics simulation on channel structure showed that homotetramers were not conducting ions because the permeation path was blocked by cation(s) strongly complexed to the Asp residue, whereas heterotetramers showed an instantaneous current component possibly linked to deformation of the channel pore. In conclusion, our results considerably expand the clinical spectrum related to HCN1 variants to include common generalized epilepsy phenotypes and further illustrate how HCN1 has a pivotal function in brain development and control of neuronal excitability.

Published
2018
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38. Mutational Spectrum in Holoprosencephaly Shows That FGF is a New Major Signaling Pathway.

Author

Dubourg C, Carré W, Hamdi-Rozé H, Mouden C, Roume J, Abdelmajid B, Amram D, Baumann C, Chassaing N, Coubes C, Faivre-Olivier L, Ginglinger E, Gonzales M, Levy-Mozziconacci A, Lynch SA, Naudion S, Pasquier L, Poidvin A, Prieur F, Sarda P, Toutain A, Dupé V, Akloul L, Odent S, de Tayrac M, and David V

Subjects
Female, Genetic Predisposition to Disease, Hedgehog Proteins genetics, High-Throughput Nucleotide Sequencing methods, Humans, Male, Receptor, Fibroblast Growth Factor, Type 1, Sequence Analysis, DNA methods, Signal Transduction, Fibroblast Growth Factors genetics, Holoprosencephaly genetics, Mutation
Abstract

Holoprosencephaly (HPE) is the most common congenital cerebral malformation in humans, characterized by impaired forebrain cleavage and midline facial anomalies. It presents a high heterogeneity, both in clinics and genetics. We have developed a novel targeted next-generation sequencing (NGS) assay and screened a cohort of 257 HPE patients. Mutations with high confidence in their deleterious effect were identified in approximately 24% of the cases and were held for diagnosis, whereas variants of uncertain significance were identified in 10% of cases. This study provides a new classification of genes that are involved in HPE. SHH, ZIC2, and SIX3 remain the top genes in term of frequency with GLI2, and are followed by FGF8 and FGFR1. The three minor HPE genes identified by our study are DLL1, DISP1, and SUFU. Here, we demonstrate that fibroblast growth factor signaling must now be considered a major pathway involved in HPE. Interestingly, several cases of double mutations were found and argue for a polygenic inheritance of HPE. Altogether, it supports that the implementation of NGS in HPE diagnosis is required to improve genetic counseling., (© 2016 WILEY PERIODICALS, INC.)

Published
2016
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39. microRNAs and the evolution of complex multicellularity: identification of a large, diverse complement of microRNAs in the brown alga Ectocarpus.

Author

Tarver JE, Cormier A, Pinzón N, Taylor RS, Carré W, Strittmatter M, Seitz H, Coelho SM, and Cock JM

Subjects
Genetic Loci, Genetic Variation, Genome, MicroRNAs chemistry, MicroRNAs classification, MicroRNAs metabolism, Phaeophyceae metabolism, Polymerase Chain Reaction, Sequence Analysis, RNA, Evolution, Molecular, MicroRNAs genetics, Phaeophyceae genetics
Abstract

There is currently convincing evidence that microRNAs have evolved independently in at least six different eukaryotic lineages: animals, land plants, chlorophyte green algae, demosponges, slime molds and brown algae. MicroRNAs from different lineages are not homologous but some structural features are strongly conserved across the eukaryotic tree allowing the application of stringent criteria to identify novel microRNA loci. A large set of 63 microRNA families was identified in the brown alga Ectocarpus based on mapping of RNA-seq data and nine microRNAs were confirmed by northern blotting. The Ectocarpus microRNAs are highly diverse at the sequence level with few multi-gene families, and do not tend to occur in clusters but exhibit some highly conserved structural features such as the presence of a uracil at the first residue. No homologues of Ectocarpus microRNAs were found in other stramenopile genomes indicating that they emerged late in stramenopile evolution and are perhaps specific to the brown algae. The large number of microRNA loci in Ectocarpus is consistent with the developmental complexity of many brown algal species and supports a proposed link between the emergence and expansion of microRNA regulatory systems and the evolution of complex multicellularity., (© The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published
2015
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40. Mapping quantitative trait loci affecting fatness and breast muscle weight in meat-type chicken lines divergently selected on abdominal fatness.

Author

Lagarrigue S, Pitel F, Carré W, Abasht B, Le Roy P, Neau A, Amigues Y, Sourdioux M, Simon J, Cogburn L, Aggrey S, Leclercq B, Vignal A, and Douaire M

Subjects
Animals, Chickens, Female, Genotype, Male, Abdominal Fat, Adiposity genetics, Muscle, Skeletal, Quantitative Trait Loci
Abstract

Quantitative trait loci (QTL) for abdominal fatness and breast muscle weight were investigated in a three-generation design performed by inter-crossing two experimental meat-type chicken lines that were divergently selected on abdominal fatness. A total of 585 F2 male offspring from 5 F1 sires and 38 F1 dams were recorded at 8 weeks of age for live body, abdominal fat and breast muscle weights. One hundred-twenty nine microsatellite markers, evenly located throughout the genome and heterozygous for most of the F1 sires, were used for genotyping the F2 birds. In each sire family, those offspring exhibiting the most extreme values for each trait were genotyped. Multipoint QTL analyses using maximum likelihood methods were performed for abdominal fat and breast muscle weights, which were corrected for the effects of 8-week body weight, dam and hatching group. Isolated markers were assessed by analyses of variance. Two significant QTL were identified on chromosomes 1 and 5 with effects of about one within-family residual standard deviation. One breast muscle QTL was identified on GGA1 with an effect of 2.0 within-family residual standard deviation.

Published
2006
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