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Italian Journal of Animal Science Volume 18, 2019 - Issue 1
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Effects of protease supplementation of low protein and/or energy diets on growth performance and blood parameters in broiler chickens under heat stress condition

Fang Lin LawInstitute of Tropical Agriculture and Food Security, University Putra Malaysia, Selangor, Malaysia; View further author information
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Zulkifli IdrusInstitute of Tropical Agriculture and Food Security, University Putra Malaysia, Selangor, Malaysia; ;Department of Animal Science, University Putra Malaysia, Selangor, Malaysia; Correspondence[email protected]
View further author information
,
Abdoreza Soleimani FarjamInstitute of Tropical Agriculture and Food Security, University Putra Malaysia, Selangor, Malaysia; View further author information
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Liang Juan BooInstitute of Tropical Agriculture and Food Security, University Putra Malaysia, Selangor, Malaysia; View further author information
&
Elmutaz Atta AwadInstitute of Tropical Agriculture and Food Security, University Putra Malaysia, Selangor, Malaysia; ;Department of Poultry Production, University of Khartoum, Khartoum, SudanORCID Iconhttp://orcid.org/0000-0002-4312-501XView further author information
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Pages 679-689 | Received 26 Jul 2018, Accepted 26 Nov 2018, Published online: 04 Feb 2019

References

  • Abudabos AM. 2012. Effect of enzyme supplementation to normal and low density broiler diets based on corn-soybean meal. Asian J Anim Vet Adv. 7:139–148.
  • Ahmadi M, Yaghobfar A, Tabatabaei SH. 2015. Study of effects difference levels of crude protein and amino acid of diet on intestinal morphological and blood biological parameters of poultry. Biological Forum. 7:666–670.
  • Alleman F, Leclercq B. 1997. Effect of dietary protein and environmental temperature on growth performance and water consumption of male broiler chickens. Br Poult Sci. 38:607–610.
  • Angel C, Saylor W, Vieira S, Ward N. 2011. Effects of a monocomponent protease on performance and protein utilization in 7- to 22-day-old broiler chickens. Poult Sci. 90:2281–2286.
  • AOAC. 1990. Official methods of analysis. 15th edition. Arlington, VA: AOAC Inc.
  • Attia YA, Hassan RA, Tag El-Din AE, Abou-Shehema BM. 2011. Effect of ascorbic acid or increasing metabolizable energy level with or without supplementation of some essential amino acids on productive and physiological traits of slow-growing chicks exposed to chronic heat stress. J Anim Physiol Anim Nutr. 95:744–755.
  • Attia YA, Hassan SS. 2017. Broiler tolerance to heat stress at various dietary protein/energy levels. Eur Poult Sci. 81.
  • Awad EA. 2016. Effects of feeding low-protein diets fortified with amino acids on broiler chickens under high environmental temperatures. PhD Thesis, Universiti Putra Malaysia.
  • Awad EA, Zulkifli I, Soleimani AF, Aljuobori A. 2017. Effects of feeding male and female broiler chickens on low-protein diets fortified with different dietary glycine levels under the hot and humid tropical climate. Ital J Anim Sci. 16:453–461.
  • Awad EA, Zulkifli I, Soleimani AF, Loh TC. 2015. Individual non-essential amino acids fortification of a low-protein diet for broilers under the hot and humid tropical climate. Poult. Sci. 94:2772–2777.
  • Awad EA, Zulkifli I, Soleimani AF, Loh TC. 2014. Amino acids fortification of low-protein diet for broilers under tropical climate. 2. Nonessential amino acids and increasing essential amino acids. Ital J Anim Sci. 13:631–636.
  • Bregendahl K, Sell JL, Zimmerman DR. 2002. Effect of low-protein diets on growth performance and body composition of broiler chicks. Poult Sci. 81:1156–1167.
  • Corzo A, Fritts CA, Kidd MT, Kerr BJ. 2005. Response of broiler chicks to essential and non-essential amino acid supplementation of low crude protein diets. Anim Feed Sci Technol. 118:319–327.
  • Corzo A, Loar R, Kidd M. 2009. Limitations of dietary isoleucine and valine in broiler chick diets1. Poult Sci. 88:1934–1938.
  • Cowieson A, Zaefarian F, Knap I, Ravindran VR. 2017. Interactive effects of dietary protein concentration, a mono-component exogenous protease and ascorbic acid on broiler performance, nutritional status and gut health. Anim Prod Sci. 57:1058–1068.
  • Dairo FAS, Adesehinwa AOK, Oluwasola TA, Oluyemi JA. 2010. High and low dietary energy and protein levels for broiler chickens. Afr J Agric Res. 5:2030–2038.
  • de Souza LFA, Espinha LP, de Almeida EA, Lunedo R, Furlan RL, Macari M. 2016. How heat stress (continuous or cyclical) interferes with nutrient digestibility, energy and nitrogen balances and performance in broilers. Livest Sci. 192:39–43.
  • Dehghani-Tafti N, Jahanian R. 2016. Effect of supplemental organic acids on performance, carcass characteristics, and serum biochemical metabolites in broilers fed diets containing different crude protein levels. Anim Feed Sci Technol. 211:109–116.
  • Fagan JM, Wajnberg EF, Culbert L, Waxman L. 1992. ATP depletion stimulates calcium-dependent protein breakdown in chick skeletal muscle. Am J Physiol Endocrinol Metab. 262:E637–E643.
  • Farouk MM, Al-Mazeedi HM, Sabow AB, Bekhit AED, Adeyemi KD, Sazili AQ, Ghani A. 2014. Halal and kosher slaughter methods and meat quality: a review. Meat Sci. 98:505–519.
  • Freitas D, Vieira S, Angel C, Favero A, Maiorka A. 2011. Performance and nutrient utilization of broilers fed diets supplemented with a novel mono-component protease. J Appl Poult Res. 20:322–334.
  • Fru-Nji F, Kluenter A-M, Fischer M, Pontoppidan K. 2011. A feed serine protease improves broiler performance and increases protein and energy digestibility. J Poult Sci. 48:239–246.
  • Gaine PC, Pikosky MA, Martin WF, Bolster DR, Maresh CM, Rodriguez NR. 2006. Level of dietary protein impacts whole body protein turnover in trained males at rest. Metab Clin Exp. 55:501–507.
  • Geraert P, Padilha J, Guillaumin S. 1996. Metabolic and endocrine changes induced by chronic heatexposure in broiler chickens: growth performance, body composition and energy retention. Br J Nutr. 75:195–204.
  • Ghazi S, Rooke JA, Galbraith H, Bedford MR. 2002. The potential for the improvement of the nutritive value of soya-bean meal by different proteases in broiler chicks and broiler cockerels. Br Poult Sci. 43:70–77.
  • Gonzalez-Esquerra R, Leeson S. 2006. Physiological and metabolic responses of broilers to heat stress-implications for protein and amino acid nutrition. Worlds Poult Sci J. 62:282–295.
  • Hada F, Malheiros RD, Silva JDT, Marques RH, Gravena RA, Silva VK, Moraes VMB. 2013. Effect of protein, carbohydrate, lipid, and selenium levels on the performance, carcass yield, and blood changes in broilers. Rev Bras Cienc Avic. 15:385–394.
  • Hernández F, López M, Martínez S, Megías MD, Catalá P, Madrid J. 2012. Effect of low-protein diets and single sex on production performance, plasma metabolites, digestibility, and nitrogen excretion in 1- to 48-day-old broilers. Poult Sci. 91:683–692.
  • Houshmand M, Azhar K, Zulkifli I, Bejo M, Kamyab A. 2012. Effects of prebiotic, protein level, and stocking density on performance, immunity, and stress indicators of broilers. Poult Sci. 91:393–401.
  • Infante-Rodríguez F, Salinas-Chavira J, Montaño-Gómez MF, Manríquez-Nuñez OM, González-Vizcarra VM, Guevara-Florentino OF, JAR DL. 2016. Effect of diets with different energy concentrations on growth performance, carcass characteristics and meat chemical composition of broiler chickens in dry tropics. SpringerPlus. 5:1937–1942.
  • Jin L, Ho Y, Abdullah N, Jalaludin S. 2000. Digestive and bacterial enzyme activities in broilers fed diets supplemented with Lactobacillus cultures. Poult Sci. 79:886–891.
  • Kaczmarek SA, Rogiewicz A, Mogielnicka M, Rutkowski A, Jones RO, Slominski BA. 2014. The effect of protease, amylase, and nonstarch polysaccharide-degrading enzyme supplementation on nutrient utilization and growth performance of broiler chickens fed corn-soybean meal-based diets. Poult Sci. 93:1745–1753.
  • Kalmendal R, Tauson R. 2012. Effects of a xylanase and protease, individually or in combination, and an ionophore coccidiostat on performance, nutrient utilization, and intestinal morphology in broiler chickens fed a wheat-soybean meal-based diet. Poult Sci. 91:1387–1393.
  • Kamel NF, Ragaa M, El-Banna RA, Mohamed FF. 2015. Effects of a monocomponent protease on performance parameters and protein digestibility in broiler chickens. Agric Agric Sci Procedia. 6:216–225.
  • Kamran Z, Sarwar M, Nisa M, Nadeem M, Mahmood S, Babar M, Ahmed S. 2008. Effect of low-protein diets having constant energy-to-protein ratio on performance and carcass characteristics of broiler chickens from one to thirty-five days of age. Poult Sci. 87:468–474.
  • Law FL, Zulkifli I, Soleimani AF, Liang JB, Awad EA. 2018. The effects of low-protein diets and protease supplementation on broiler chickens in a hot and humid tropical environment. Asian-Australas J Anim Sci. 31:1291–1300.
  • Law L, Zulkifli I, Soleimani A, Hossain M, Liang J. 2015. Nutrient digestibility of broiler chickens fed on a low-protein diet supplemented with mono-component proteases. Eur Poult Sci. 81:1–15.
  • Leeson S, Caston L, Summers JD. 1996. Broiler response to diet energy. Poult Sci. 75:529–535.
  • Lin H, Jiao H, Buyse J, Decuypere E. 2006. Strategies for preventing heat stress in poultry. Worlds Poult Sci J. 62:71–86.
  • Mack L, Felver-Gant J, Dennis R, Cheng HW. 2013. Genetic variations alter production and behavioral responses following heat stress in 2 strains of laying hens. Poult Sci. 92:285–294.
  • Mahmood T, Mirza MA, Nawaz H, Shahid M. 2017a. Effect of different exogenous proteases on growth performance, nutrient digestibility, and carcass response in broiler chickens fed poultry by-product meal-based diets. Livest Sci. 200:71–75.
  • Mahmood T, Mirza MA, Nawaz H, Shahid M, Athar M, Hussain M. 2017b. Effect of supplementing exogenous protease in low protein poultry by-product meal based diets on growth performance and nutrient digestibility in broilers. Anim Feed Sci Technol. 228:23–31.
  • Mahmoud KZ, Edens FW, Eisen EJ, Havenstein GB. 2004. Ascorbic acid decreases heat shock protein 70 and plasma corticosterone response in broilers (Gallus gallus domesticus) subjected to cyclic heat stress. Comp Biochem Physiol A Mol Integr Physiol. 137:35–42.
  • Malheiros RD, Moraes VM, Collin A, Janssens GP, Decuypere E, Buyse J. 2003. Dietary macronutrients, endocrine functioning and intermediary metabolism in broiler chickens: pair wise substitutions between protein, fat and carbohydrate. Nutr Res. 23:567–578.
  • Mallouk Y, Vayssier-Taussat M, Bonventre JV, Polla BS. 1999. Heat shock protein 70 and ATP as partners in cell homeostasis (Review). Int J Mol Med. 4:463–537.
  • Musharaf NA, Latshaw JD. 1999. Heat increment as affected by protein and amino acid nutrition. Worlds Poult Sci J. 55:233–240.
  • Najafi P, Zulkifli I, Jajuli NA, Soleimani AF, Ramiah SK, Amir AA, O’Reily E, Eckersall D. 2015. Environmental temperature and stocking density effects on acute phase proteins, heat shock protein 70, circulating corticosterone and performance in broiler chickens. Int J Biometeorol. 59:1577–1583.
  • Namroud NF, Shivazad M, Zaghari M. 2008. Effects of fortifying low crude protein diet with crystalline amino acids on performance, blood ammonia level, and excreta characteristics of broiler chicks. Poult Sci. 87:2250–2258.
  • Ojano-Dirain CP, Waldroup PW. 2002. Protein and amino acid needs of broilers in warm weather: a review. Int J Poult Sci. 1:40–46.
  • Olubodun J, Zulkifli I, Hair-Bejo M, Kasim A, Soleimani AF. 2015. Physiological response of glutamine and glutamic acid supplemented broiler chickens to heat stress. Eur Poult Sci. 79:1–12.
  • Payne CG. 1967. Environmental control in poultry production, layer response to energy. London, UK: Longmans.
  • Rahman MS, Pramanik MAH, Basak B, Tarafdar SU, Biswas SK. 2002. Effect of feeding low protein diets on the performance of broilers during hot humid season. Int J Poult Sci. 1:35–39.
  • Rosebrough RW, Steele NC. 1985. Energy and protein relationships in the broiler. 1. Effect of protein levels and feeding regimens on growth, body composition, and in vitro lipogenesis of broiler chicks. Poult Sci. 64:119–126.
  • Sandercock DA, Hunter RR, Nute GR, Mitchell MA, Hocking PM. 2001. Acute heat stress-induced alterations in blood acid-base status and skeletal muscle membrane integrity in broiler chickens at two ages: implications for meat quality. Poult Sci. 80:418–425.
  • Si J, Fritts CA, Burnham DJ, Waldroup PW. 2004. Extent to which crude protein may be reduced in corn-soybean meal broiler diets through amino acid supplementation. Int J Poult Sci. 3:46–50.
  • Sklan D, Plavnik I. 2002. Interactions between dietary crude protein and essential amino acid intake on performance in broilers. Br Poult Sci. 43:442–449.
  • Soleimani AF, Zulkifli I, Omar AR, Raha AR. 2011. Physiological responses of 3 chicken breeds to acute heat stress. Poult Sci. 90:1435–1440.
  • Soleimani AF, Zulkifli I, Omar AR, Raha AR. 2012. The relationship between adrenocortical function and Hsp70 expression in socially isolated Japanese quail. Comp Biochem Physiol Part A Mol Integr Physiol. 161:140–144.
  • Sterling KG, Costa EF, Henry MH, Pesti GM, Bakalli RI. 2002. Responses of broiler chickens to cottonseed- and soybean meal-based diets at several protein levels. Poult Sci. 81:217–226.
  • Swennen Q, Janssens GPJ, Collin A, Le Bihan-Duval E, Verbeke K, Decuypere E, Buyse J. 2006. Diet-induced thermogenesis and glucose oxidation in broiler chickens: influence of genotype and diet composition. Poult Sci. 85:731–742.
  • Swennen Q, Laroye C, Janssens G, Verbeke K, Decuypere E, Buyse J. 2007. Rate of metabolic decarboxylation of leucine as assessed by al [1‐13C1] leucine breath test combined with indirect calorimetry of broiler chickens fed isocaloric diets with different protein: fat ratio. J Anim Physiol Anim Nutr. 91:347–354.
  • Temim S, Chagneau AM, Guillaumin S, Michel J, Peresson R, Tesseraud S. 2000. Does excess dietary protein improve growth performance and carcass characteristics in heat-exposed chickens?. Poult Sci. 79:312–317.
  • Temim S, Chagneau AM, Peresson R, Michel J, Guillaumin S, Tesseraud S. 1998. Muscle protein turnover in broiler chickens: effects of high ambient temperatures and dietary protein intake. Reprod Nutr Dev. 38:190–190.
  • van Nguyen T, Bunchasak C. 2005. Effects of dietary protein and energy on growth performance and carcass characteristics of Betong chicken at early growth stage. Songklanakarin J Sci Technol. 27:1172–1178.
  • Zaman QU, Mushtaq T, Nawaz H, Mirza MA, Mahmood S, Ahmad T, Babar ME, Mushtaq MMH. 2008. Effect of varying dietary energy and protein on broiler performance in hot climate. Anim Feed Sci Technol. 146:302–312.
  • Zhang ZY, Jia GQ, Zuo JJ, Zhang Y, Lei J, Ren L, Feng DY. 2012. Effects of constant and cyclic heat stress on muscle metabolism and meat quality of broiler breast fillet and thigh meat. Poult Sci. 91:2931–2937.
  • Zulkifli I, Akmal AF, Soleimani AF, Hossain MA, Awad EA. 2018. Effects of low-protein diets on acute phase proteins and heat shock protein 70 responses, and growth performance in broiler chickens under heat stress condition. Poult Sci. 97:1306–1314.
  • Zulkifli I, Najafi P, Nurfarahin AJ, Soleimani AF, Kumari S, Aryani AA, O’Reilly EL, Eckersall PD. 2014. Acute phase proteins, interleukin 6, and heat shock protein 70 in broiler chickens administered with corticosterone. Poult Sci. 93:3112–3118.

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