Found 893 results
Brard S, Ricard A. Should we use the single nucleotide polymorphism linked to in genomic evaluation of French trotter?. J Anim Sci. 2015;93(10):4651-9. doi:10.2527/jas.2015-9224.
Nicolazzi EL, Caprera A, Nazzicari N, et al. SNPchiMp v.3: integrating and standardizing single nucleotide polymorphism data for livestock species. BMC Genomics. 2015;16:283. doi:10.1186/s12864-015-1497-1.
Theau-Clément M, Bolet G, Sanchez A, Saleil G, Brun JM. Some factors that influence semen characteristics in rabbits. Anim Reprod Sci. 2015;157:33-8. doi:10.1016/j.anireprosci.2015.03.011.
Bonnet A, Servin B, Mulsant P, Mandon-Pepin B. Spatio-Temporal Gene Expression Profiling during In Vivo Early Ovarian Folliculogenesis: Integrated Transcriptomic Study and Molecular Signature of Early Follicular Growth. PLoS One. 2015;10(11):e0141482. doi:10.1371/journal.pone.0141482.
Read T, Combes S, Gidenne T, Destombes N, Grenet L, Fortun-Lamothe L. Stimulate feed intake before weaning and control intake after weaning to optimise health and growth performance. World Rabbit Science. 2015;23(3):145-153.
Schmid M, Smith J, Burt DW, et al. Third Report on Chicken Genes and Chromosomes 2015. Cytogenet Genome Res. 2015;145(2):78-179. doi:10.1159/000430927.
Sautron V, Terenina E, Gress L, et al. Time course of the response to ACTH in pig: biological and transcriptomic study. BMC Genomics. 2015;16(1):961. doi:10.1186/s12864-015-2118-8.
Mukiibi R, Rochus CM, Andersson G, Johansson AM. The use of endogenous retroviruses as markers to describe the genetic relationships among local Swedish sheep breeds. Anim Genet. 2015;46(2):220-3. doi:10.1111/age.12264.
Brard S, Ricard A. Is the use of formulae a reliable way to predict the accuracy of genomic selection?. J Anim Breed Genet. 2015;132(3):207-17. doi:10.1111/jbg.12123.
Riggio V, Abdel-Aziz M, Matika O, Moreno C, Carta A, Bishop SC. Accuracy of genomic prediction within and across populations for nematode resistance and body weight traits in sheep. 2014;8:520–528. doi:10.1017/s1751731114000081.
Thomas M, Fortun-Lamothe L, Jouven M, et al. Agroecology and industrial ecology : Two complementary alternatives for animal production in the 21st century. INRA - Productions Animales. 2014;27:89–99.
Girard N, Magda D, Astruc JM, et al. Analyzing indicators for combining natural resources management and production-oriented activities. 2014;Mai:18–p. doi:10.1007/s10668-014-9544-7.
Baloche G, Legarra A, Salle G, et al. Assessment of accuracy of genomic prediction for French Lacaune dairy sheep. Journal of Dairy Science. 2014;97:1107–1116. doi:10.3168/jds.2013-7135.
García-Cortés L, Legarra A, Toro M. The coefficient of dominance is not (always) estimable with biallelic markers. Journal of Animal Breeding and Genetics. 2014;131:97–104.
Zhang G, Li C, Li Q, et al. Comparative genomics reveals insights into avian genome evolution and adaptation. Science. 2014;346(6215):1311-20. doi:10.1126/science.1251385.
Carillier C, Larroque H, Robert-Granié C. Comparison of joint and purebred genomic evaluation in the French multi-breed dairy goat population. Genetics Selection Evolution. 2014;46.
Barasc H, Ferchaud S, Mary N, et al. Cytogenetic analysis of somatic and germinal cells from 38,XX/38,XY phenotypically normal boars. Theriogenology. 2014;81(2):368-72.e1. doi:10.1016/j.theriogenology.2013.10.006.
Phocas F, Bobe J, Bodin L, et al. Des animaux plus robustes : un enjeu majeur pour le d{é}veloppement durable des productions animales n{é}cessitant l'essor du ph{é}notypage fin et {à} haut d{é}bit. 2014;27:181–194. Available at:
Phocas F, Bobe J, Bodin L, et al. Des animaux plus robustes : un enjeu majeur pour le développement durable des productions animales nécessitant l’essor du phénotypage fin et à haut débit. INRA Productions Animales. 2014;27(3):181-194.
Tosser-Klopp G, Bardou P, Bouchez O, et al. Design and Characterization of a 52K SNP Chip for Goats. PLoS ONE. 2014;9:e86227. doi:10.1371/journal.pone.0086227.
Tran TS, Narcy A, Carré B, et al. Detection of QTL controlling digestive efficiency and anatomy of the digestive tract in chicken fed a wheat-based diet. Genetics Selection Evolution. 2014;46:25. doi:10.1186/1297-9686-46-25.
Boichard D, Govignon-Gion A, Larroque H, et al. Déterminisme génétique de la composition en acides gras et protéines du lait des ruminants et potentialités de sélection. INRA Productions Animales. 2014;27:283–298. Available at:
Montagne L, Loisel F, Le Naou T, Gondret F, Gilbert H, Le Gall M. Difference in short-term responses to a high-fiber diet in pigs divergently selected for residual feed intake. Journal of animal science. 2014;92:1512–1523. doi:10.2527/jas.2013-6623.
Jacquier V, Combes S, Oswald IP, Rogel-Gaillard C, Gidenne T. Early modulation of the cecal microbial activity in the young rabbit with rapidly fermentable fiber : Impact on health and growth. Journal of Animal Science. 2014;92:5551–5559.
Marissal-Arvy N, Batandier C, Dallennes J, et al. Effect of a high-fat--high-fructose diet, stress and cinnamon on central expression of genes related to immune system, hypothalamic-pituitary-adrenocortical axis function and cerebral plasticity in rats. Br J Nutr. 2014;111(7):1190-201. doi:10.1017/S0007114513003577.