Agriculture Reference
In-Depth Information
Quiniou, N., Dagorn, J. and Gaudré, D., 2002. Variation of piglets' birth weight and consequences
on subsequent performance. Livestock Production Science 78: 63-70.
Quiniou, N., Goues, T., Mourot, J. and Etienne, M., 2010. Effect of the incorporation of 1.4% lipids
from palm oil or extruded linseed in gestation and lactation diets on farrowing progress and
piglets' survival before weaning. In: 42ème Journées de la Recherche Porcine. February 2-3,
2010. Paris, France, pp. 137-138.
Rehfeldt, C. and Kuhn, G., 2006. Consequences of birth weight for postnatal growth performance
and carcass quality in pigs as related to myogenesis. Journal of Animal Science 84:Suppl:
E113-123.
Rescigno, M., Lopatin, U. and Chieppa, M., 2008. Interactions among dendritic cells, macrophages,
and epithelial cells in the gut: implications for immune tolerance. Current Opinion in
Immunology 20: 669-675.
Rooke, J.A., Sinclair, A.G. and Edwards, S.A., 2001a. Feeding tuna oil to the sow at different
times during pregnancy has different effects on piglet long-chain polyunsaturated fatty acid
composition at birth and subsequent growth. British Journal of Nutrition 86: 21-30.
Rooke, J.A., Sinclair, A.G. and Ewen, M., 2001b. Changes in piglet tissue composition at birth in
response to increasing maternal intake of long-chain N-3 polyunsaturated fatty acids are non-
linear. British Journal of Nutrition 86: 461-470.
Rothkotter, H.J., 2009. Anatomical particularities of the porcine immune system - a physician's
view. Developmental and Comparative Immunology 33: 267-272.
Rothkotter, H.J. and Pabst, R., 1989. Lymphocyte subsets in jejunal and ileal Peyer's patches of
normal and gnotobiotic minipigs. Immunology 67: 103-108.
Salmon, H., 2000. Mammary gland immunology and neonate protection in pigs. homing of
lymphocytes into the Mg. Advances in Experimental Medicine and Biology 480: 279-286.
Salmon, H., Berri, M., Gerdts, V. and Meurens, F., 2009. Humoral and cellular factors of maternal
immunity in swine. Developmental and Comparative Immunology 33: 384-393.
Schumann, A., Nutten, S., Donnicola, D., Comelli, E.M., Mansourian, R., Cherbut, C., Corthesy-
Theulaz, I. and Garcia-Rodenas, C., 2005. Neonatal antibiotic treatment alters gastrointestinal
tract developmental gene expression and intestinal barrier transcriptome. Physiological
Genomics 23: 235-245.
Stirling, C.M., Charleston, B., Takamatsu, H., Claypool, S., Lencer, W., Blumberg, R.S. and
Wileman, T.E., 2005. Characterization of the porcine neonatal Fc receptor - potential use for
trans-epithelial protein delivery. Immunology 114: 542-553.
Tsukahara, T., Iwasaki, Y., Nakayama, K. and Ushida, K., 2003. Stimulation of butyrate production
in the large intestine of weaning piglets by dietary fructooligosaccharides and its influence on
the histological variables of the large intestinal mucosa. Journal of Nutritional Science and
Vitaminology (Tokyo) 49: 414-421.
Turnbaugh, P.J., Ley, R.E., Mahowald, M.A., Magrini, V., Mardis, E.R. and Gordon, J.I., 2006. An
obesity-associated gut microbiome with increased capacity for energy harvest. Nature 444:
1027-1031.
Vega-Lopez, M.A., Bailey, M., Telemo, E. and Stokes, C.R., 1995. Effect of early weaning on
the development of immune cells in the pig small intestine. Veterinary Immunology and
Immunopathology 44: 319-327.
Wang, J., Chen, L., Li, D., Yin, Y., Wang, X., Li, P., Dangott, L.J., Hu, W. and Wu, G., 2008.
Intrauterine growth restriction affects the proteomes of the small intestine, liver, and skeletal
muscle in newborn pigs. Journal of Nutrition 138: 60-66.
