Original Article

Recombinant Bovine Somatotropin and its Role in Dairy Production: A Review

Year: 2019 | Month: December | Volume 9 | Issue 3

References (42)

1.Addisu, S., Tegenaw, K. and Tesfa, A. 2018. Review on the role of bovine somatotropin hormone for dairying. Online Journal of Animal and Feed Research, 8: 90-96.

View at Google Scholar

2.Ahmad, T. 2002. Effect of bovine somatotropin on the lactational and reproductive performance of lactating dairy cows-A review. Commission on Science and Technology for Sustainable Development in the South, 8: 36.

View at Google Scholar

3.Bauman, D.E. 1992. Bovine somatotropin: review of an emerging animal technology. Journal of Dairy Science, 75: 3432-3451.

View at Google Scholar

4.Burton, J.L., McBride, B.W., Block, E., Glimm, D.R. and Kennelly, J.J. 1994. A review of bovine growth hormone. Canadian Journal of Animal Science, 74: 167-201.

View at Google Scholar

5.Campos, B., Coelho, S., Quintão, A., Rabelo, E., Machado, T. and Silper, B. 2011. Use of bovine somatotropin (BST) 500 mg in crossbred Bos taurus × Bos indicus cows every 12 or 14 days. A Hora Veterinária, 30: 8-13.

View at Google Scholar

6.Capper, J.L., Castañeda-Gutiérrez, E., Cady, R.A. and Bauman, D.E. 2008. The environmental impact of recombinant bovine somatotropin (rbST) use in dairy production. Proceedings of the National Academy of Sciences, 105: 9668-9673.

View at Google Scholar

7.Carriquiry, M., Weber, W.J., Dahlen, C., Lamb, G., Baumgard, L. and Crooker, B.A. 2009. Fatty acid composition of milk from multiparous Holstein cows treated with bovine somatotropin and fed n-3 fatty acids in early lactation. Journal of Dairy Science, 92: 4865-4875.

View at Google Scholar

8.Centner, T.J. 2016. Efforts to slacken antibiotic resistance: Labeling meat products from animals raised without antibiotics in the United States. Science of the Total Environment, 563: 1088-1094.

View at Google Scholar

9.Chagas, C.E., Rogero, M.M. and Martini, L.A. 2012. Evaluating the links between intake of milk/dairy products and cancer. Nutrition Reviews, 70: 294- 300.

View at Google Scholar

10.Chaiyabutr, N., Thammacharoen, S., Komolvanich, S. and Chanpongsang, S. 2007. Effects of longterm exogenous bovine somatotropin on water metabolism and milk yield in crossbred Holstein cattle. The Journal of Agricultural Science, 145: 173-184.

View at Google Scholar

11.Chase, C., Kirby, C., Hammond, A., Olson, T. and Lucy, M. 1998. Patterns of ovarian growth and development in cattle with a growth hormone receptor deficiency. Journal of Animal Science, 76: 212-219.

View at Google Scholar

12.Collier, R.J. and Bauman, D. 2014. Update on human health concerns of recombinant bovine somatotropin use in dairy cows. Journal of Animal Science, 92: 1800-1807.

View at Google Scholar

13.Collier, R.J., Byatt, J., Denham, S., Eppard, P., Fabellar, A., Hintz, R., McGrath, M., McLaughlin, C., Shearer, J. and Veenhuizen, J. 2001. Effects of sustained-release bovine somatotropin (sometribove) on animal health in commercial dairy herds. Journal of Dairy Science, 84: 1098- 1108.

View at Google Scholar

14.Collier, R.J., Miller, M., McLaughlin, C., Johnson, H. and Baile, C. 2008. Effects of recombinant bovine somatotropin (rbST) and season on plasma and milk insulin-like growth factors I (IGF-I) and II (IGF-II) in lactating dairy cows. Domestic Animal Endocrinology, 35: 16-23.

View at Google Scholar

15.Davis, S., Smith, J. and Gluckman, P. 1990. Effects of growth hormone injections on ovulation rate in ewes. Reproduction, Fertility and Development, 2: 173-178.

View at Google Scholar

16.Dohoo, I.R., DesCôteaux, L., Leslie, K., Fredeen, A., Shewfelt, W., Preston, A. and Dowling, P. 2003. A meta-analysis review of the effects of recombinant bovine somatotropin: 2. Effects on animal health, reproductive performance, and culling. Canadian Journal of Veterinary Research, 67: 252.

View at Google Scholar

17.Etherton, T.D. and Bauman, D.E. 1998. Biology of somatotropin in growth and lactation of domestic animals. Physiological Reviews, 78: 745-761.

View at Google Scholar

18.European Food Safety Authority. 2015. EFSA’s assistance for the 2015 Codex Committee on Residues of Veterinary Drugs in Food (CCRVDF) in relation to rBST. EFSA Supporting Publications, 12: 828E.

View at Google Scholar

19.Feldman, M., Ruan, W., Cunningham, B.C., Wells, J.A. and Kleinberg, D.L. 1993. Evidence that the growth hormone receptor mediates differentiation and development of the mammary gland. Endocrinology, 133: 1602-1608.

View at Google Scholar

20.Firkins, J., Cleale, R., Clark, J., Rock, D. and Patterson, D. 1989. Responses of dairy cows to sustained-release form of recombinant bovine somatotropin. J. Dairy Sci., 72: 430.

View at Google Scholar

21.Gulay, M., Hayen, M., Teixeira, L., Wilcox, C. and Head, H. 2003. Responses of Holstein cows to a low dose of somatotropin (bST) prepartum and postpartum. Journal of Dairy Science, 86: 3195- 3205.

View at Google Scholar

22.Hammond, B., Collier, R., Miller, M., McGrath, M., Hartzell, D., Kotts, C. and Vandaele, W. 1990. Food safety and pharmacokinetic studies which support a zero (0) meat and milk withdrawal time for use of sometribove in dairy cows. Annales de Recherches Vétérinaires, 21: 107s-120s.

View at Google Scholar

23.Hogan, J. and Smith, K.L. 2012. Managing environmental mastitis. Veterinary Clinics: Food Animal Practice, 28: 217-224.

View at Google Scholar

24.Jabbar, M., Ahmad, I., Abdullah, M., Pasha, T. and Majeed, F. 2009. Long term use of bovine somatotropic (bST) on reproduction. South African Journal of Animal Science, 39: 266-269.

View at Google Scholar

25.Kim, Y.H., and Kim, D. 2012. Effects of Boostin-250 supplementation on milk production and health of dairy cows. Korean Journal of Clinical Veterinary Medicine, 29: 213-219.

View at Google Scholar

26.Lee, B., Lin, G., Crooker, B.A., Murtaugh, M. P., Hansen, L.B. and Chester-Jones, H. 1996. Association of somatotropin (BST) gene polymorphism at the 5th exon with selection for milk yield in Holstein cows. Domestic Animal Endocrinology, 13: 373-381.

View at Google Scholar

27.Liboni, M., Gulay, M., Hayen, M., Belloso, T. and Head, H. 2008. Supplementation of Holstein cows with low doses of bovine somatotropin (bST) prepartum and postpartum affects physiological adaptations and milk production. Asian-Australasian Journal of Animal Sciences, 21: 404-413.

View at Google Scholar

28.Lucy, M., Hauser, S., Eppard, P., Krivi, G., Clark, J., Bauman, D. and Collier, R.J. 1993. Variants of somatotropin in cattle: gene frequencies in major dairy breeds and associated milk production. Domestic Animal Endocrinology, 10: 325-333.

View at Google Scholar

29.Macrina, A., Tozer, P. and Kensinger, R. 2011. Induced lactation in pubertal heifers: Efficacy, response to bovine somatotropin, and profitability. Journal of Dairy Science, 94: 1355-1364.

View at Google Scholar

30.Molnar, J.J., Cummins, K.A. and Nowak, P.F. 1990. Bovine somatotropin: biotechnology product and social issue in the United States dairy industry. Journal of Dairy Science, 73: 3084-3093.

View at Google Scholar

31.National Research Council. 1994. “Metabolic modifiers: effects on the nutrient requirements of food-producing animals,” National Academies.

View at Google Scholar

32.National Research Council. 2005. “Animal health at the crossroads: preventing, detecting, and diagnosing animal diseases,” National Academies Press.

View at Google Scholar

33.O’Donnell-Megaro, A., Barbano, D. and Bauman, D. 2011. Survey of the fatty acid composition of retail milk in the United States including regional and seasonal variations. Journal of Dairy Science, 94: 59-65.

View at Google Scholar

34.Peel, C. and Bauman, D. 1987. Somatotropin and lactation. Journal of Dairy Science, 70: 474-486.

View at Google Scholar

35.Peyrat, J., Louchez, M., Lefebvre, J., Bonneterre, J., Vennin, P., Demaille, A., Helquet, B. and Fournier, C. 1993. Plasma insulin-like growth factor-1 (IGF-1) concentrations in human breast cancer. European Journal of Cancer, 29: 492-497.

View at Google Scholar

36.Prasad, J. and Singh, M. 2010. Milk production and hormonal changes in Murrah Buffaloes administered recombinant bovine somatotropin (rBST). Agriculture and Biology Journal of North America, 1: 1325-1327.

View at Google Scholar

37.Raymond, R., Bales, C.W., Bauman, R.D.E., Clemmons, D., Kleinman, R., Lanna, D., Nickerson, S. and Sejrsen, K. 2009. Recombinant Bovine somatotropin (rbST): A safety assessment. In “Joint Annual Meeting of the American Dairy Science Association, Canadian Society of Animal Science, and American Society of Animal Science, Montreal, Canada”.

View at Google Scholar

38.Shibru, D. 2016. Review on: effect of using recombinant bovine somatotropin (rbST) hormone on dairy cattle production. Glob. J. Inc., 18-30.

View at Google Scholar

39.Soliman, E. and El-Barody, M. 2014. Physiological responses of dairy animals to recombinant bovine somatotropin: a review. Journal of Cell and Animal Biology, 8: 1-14.

View at Google Scholar

40.St-Pierre, N.R., Milliken, G.A., Bauman, D.E., Collier, R.J., Hogan, J.S., Shearer, J.K., Smith, K.L. and Thatcher, W.W. 2014. Meta-analysis of the effects of sometribove zinc suspension on the production and health of lactating dairy cows. Journal of the American Veterinary Medical Association, 245: 550-564.

View at Google Scholar

41.Van Schaik, G., Lotem, M. and Schukken, Y. 2002. Trends in somatic cell counts, bacterial counts, and antibiotic residue violations in New York State during 1999–2000. Journal of Dairy Science, 85: 782-789.

View at Google Scholar

42.Zaitlin, P., Dwyer, J. and Gleason, G.R. 2013. Mistaken beliefs and the facts about milk and dairy foods. Nutrition Today, 48: 135-143.

View at Google Scholar

@Theriogenology Insight(TI)| Printed by New Delhi Publishers

541103 - Visitors since March 18, 2019