Applications of Nutrigenomics Poultry

Document Type : Scientific-Extensional Article

Author

Ph.D. Student of Poultry Nutrition, Department of Animal Science, Campus of Abureyhan at University of Tehran

Abstract

Nutrigenomics is the study of gene expression or metabolic pathway depending on different food material. In recent year, nutrigenomics has gained special attention due to its great potentiality for treating chronic disease. In this review, we have emphasized the importance of nutrigenomics on poultry industry. Types of food consumption are crucial factor for animal health in term of specific nutrition related gene expression and this knowledge is important for preparation of personalized diet. In several investigations, researchers have used different combination of food material to monitor the growth and health of Poultry but it needs more accuracy and better understanding. Though the food product development and field application technique has a long way to go, further development in the field of nutrigenomics will definitely show it’s potentiality in the food market and the growth of individuals. A greater understanding of these mechanisms will lead us to more production.

Keywords

References

Bhatt, S. N., & Sharma, A. D. (2011). Nutrigenomics: a non—conventional therapy. International Journal of Pharmaceutical Sciences Review and Research, 8(2), 100-105.
Brennan, K. M., Pierce, J. L., Cantor, A. H., Pescatore, A. J., Xiao, R., & Power, R. F. (2012). Source of selenium supplementation influences testis selenium content and gene expression profiles in Single Comb White Leghorn roosters. Biological trace element research, 145(3), 330-337.
Costa, N. M. B., & Rosa, C. O. B. (2011). Functional Foods: Bioactive Components and Physiological Effects. 1 Reprint. Rubio, Rio de Janeiro, Brazil.
Cozzolino, S. M. F., & Cominetti, C. (2013). Biochemical and physiological bases of nutrition in different stages of life in health and disease. Monole, Sao Paulo, Brazil.
Everaert, N., Q. Swennen, S.M. Coustard, H. Willemsen and C. Careghi et al., 2010. The effect of the protein level in a pre-starter diet on the post-hatch performance and activation of ribosomal protein S6 kinase in muscle of neonatal broilers. Br. J. Nutr., 103: 206-211.
Gonzales, E., Kondo, N., Saldanha, E. S., Loddy, M. M., Careghi, C., & Decuypere, E. (2003). Performance and physiological parameters of broiler chickens subjected to fasting on the neonatal period. Poultry Science, 82(8), 1250-1256.
Halevy, O., Geyra, A., Barak, M., Uni, Z., & Sklan, D. (2000). Early post hatch starvation decreases satellite cell proliferation and skeletal muscle growth in chicks. The Journal of nutrition, 130(4), 858-864.
Kaiser, M. G., Block, S. S., Ciraci, C., Fang, W., Sifri, M., & Lamont, S. J. (2012). Effects of dietary vitamin E type and level on lipopolysaccharide-induced cytokine mRNA expression in broiler chicks. Poultry science, 91(8), 1893-1898.
Kaput, J., Ordovas, J. M., Ferguson, L., Van Ommen, B., Rodriguez, R. L., Allen, L., & Malyj, W. (2005). The case for strategic international alliances to harness nutritional genomics for public and personal health. British Journal of Nutrition, 94(5), 623-632.
Kore, K. B., Pathak, A. K., & Gadekar, Y. P. (2008). Nutrigenomics: Emerging face of molecular nutrition to improve animal health and production. Veterinary World, 1(9), 285.
Naji, T. A., Amadou, I., Zhao, R. Y., Tang, X., Shi, Y. H., & Le, G. W. (2014). Effects of phytosterol in feed on growth and related gene expression in muscles of broiler chickens. Tropical Journal of Pharmaceutical Research, 13(1), 9-16.
Norheim, F., Gjelstad, I. M., Hjorth, M., Vinknes, K. J., Langleite, T. M., Holen, T., & Rustan, A. C. (2012). Molecular nutrition research—the modern way of performing nutritional science. Nutrients, 4(12), 1898-1944.4. Dauncey, M.J. (2012). Recent advances in nutrition, genes and brain health. Proc. Nutr. Soc., 71: 581-591.
Ronteltap, A., van Trijp, H., Berezowska, A., & Goossens, J. (2013). Nutrigenomics-based personalized nutritional advice: in search of a business model? Genes & nutrition, 8(2), 153.
Sales, N. M. R., Pelegrini, P. B., & Goersch, M. C. (2014). Nutrigenomics: definitions and advances of this new science. Journal of nutrition and metabolism, 2014.
Tellez, G., Latorre, J. D., Kuttappan, V. A., Kogut, M. H., Wolfenden, A., Hernandez-Velasco, X., ... & Faulkner, O. B. (2014). Utilization of rye as energy source affects bacterial translocation, intestinal viscosity, microbiota composition, and bone mineralization in broiler chickens. Frontiers in genetics, 5, 339.
Xiao, R., Power, R. F., Mallonee, D., Crowdus, C., Brennan, K. M., Ao, T., & Dawson, K. A. (2011). A comparative transcriptomic study of vitamin E and an algae-based antioxidant as antioxidative agents: Investigation of replacing vitamin E with the algae-based antioxidant in broiler diets. Poultry science, 90(1), 136-146.
Yuan, J., Xu, Z., Huang, C., Zhou, S., & Guo, Y. (2011). Effect of dietary Mintrex-Zn/Mn on performance, gene expression of Zn transfer proteins, activities of Zn/Mn related enzymes and fecal mineral excretion in broiler chickens. Animal feed science and technology, 168(1-2), 72-79.

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