Effects of dietary cysteamine in quails on performance, hatchability, plasma biochemical and sex hormone levels


Опубликован: Apr 29, 2022
Gülşah Kanbur
Sinan Sefa Parlat
Аннотация

This study was designed to determine the effects of a single dose of dietary Cysteamine (Cys) on growth and laying performance, meat properties, hatchability, and plasma glucose, cholesterol, and sex hormone levels of quail in two experiments that followed each other. Trial 1 (T1): A total of two hundred, 1-d old quail (Coturnix coturnix japonica) chicks were randomly allocated to 1 of two treatment groups with 5 replicates, either a control group (basal diet) or a treatment group that contain 90 mg Cys per kg basal diet. During the 5 weeks growth period performance data regarding the growth period were collected. At the end of T1, a total of 30 quail were slaughtered, and color values, pH, and meat macronutrients were determined of breast meat. Data from T1 showed that the inclusion of 90 mg Cys in the diet did affect neither growth performance nor breast meat parameters of quail. Trial 2 (T2): At the end of T1, 40 from each treatment and a total of 80, six-weeks-old quail were selected randomly to use in the laying period experiment. Feeding with Cys added (90 mg/kg basal diet) and control (Basal) diets have been lasted in two treatment groups for 10 weeks for laying period. Laying and hatching performance data collected during T2, at the end of the trial, a total of 20 quails were sacrificed and plasma glucose, cholesterol, and sex hormone levels detected. Results of T2 displayed that 90 mg /kg feed dietary Cys increased egg mass (P< 0.05), however, it was ineffective on other laying and hatching performance parameters. Whereas plasma glucose level was not altered, plasma cholesterol level significantly decreased with the presence of Cys in the diet (P< 0.05). Moreover, dietary Cys significantly increased plasma sex hormones levels in both sexes. Concluded, 90 mg dietary Cys did not show an improving or depressing effect on the growth, laying, or hatching performance of quails however, its cholesterol-lowering impact and boosting effects on plasma sex hormones are noteworthy.

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Биографии авторов
Gülşah Kanbur, Selcuk University, Agriculture Faculty, Department of Animal Science, Selçuklu, Konya- Turkey
Animal Science
Sinan Sefa Parlat, Selcuk University, Agriculture Faculty, Department of Animal Science, Selçuklu, Konya- Turkey
Animal science
Библиографические ссылки
A.O.A.C. (2000) Official methods of analysis (17th ed.).
Allen C, Fletcher D, Northcutt J, Russell S (1998) The relationship of broiler breast color to meat quality and shelf-life. Poultry Science 77(2):361-366
Aygün A, Sert D, Copur G (2012) Effects of propolis on eggshell microbial activity, hatchability, and chick performance in Japanese quail (Coturnix coturnix japonica) eggs. Poultry science 91(4):1018-1025
Bai M, Liu H, Xu K, et al. (2018) Effects of dietary coated cysteamine hydrochloride on pork color in finishing pigs. Journal of the Science of Food and Agriculture 98(5):1743-1750
Baird DT, Swanston IA, Mcneily AS (1981) Relationship between LH, FSH, and prolactin concentration and the secretion of androgens and estrogens by the preovulatory follicle in the ewe. Biology of Reproduction 24(5):1013-1025
Besouw M, Masereeuw R, van den Heuvel L, Levtchenko E (2013) Cysteamine: an old drug with new potential. Drug Discovery Today 18(15-16):785-792
Braun EJ, Sweazea KL (2008) Glucose regulation in birds. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 151(1):1-9
De Matos D, Furnus C (2000a) The importance of having high glutathione (GSH) level after bovine in vitro maturation on embryo development: effect of β-mercaptoethanol, cysteine and cystine. Theriogenology 53(3):761-771
De Matos DG, Furnus CC (2000b) The importance of having high glutathione (GSH) level after bovine in vitro maturation on embryo development: effect of β-mercaptoethanol, cysteine and cystine. Theriogenology 53(3):761-771
Doğan A, Aksu P, Erdağ D, Özcan K, Doğan E (2014) Farelerde 3-Metilkolantrenle İndüklenen Fibrosarkoma Üzerine Sisteamin, Putresin ve Sisteamin-Putresin Kombinasyonunun Etkileri. Kafkas Universitesi Veteriner Fakultesi Dergisi 20(1):1049-4056
Hall TR, Cheung A, Harvey S, Lam SK, Spencer GSG (1986) Somatostatin immunoneutralization affects plasma metabolite concentrations in the domestic fowl. Comparative Biochemistry and Physiology Part A: Physiology 85A(3):489-494
Horwitz W, Latimer G (2000) AOAC official methods. Official Methods of Analysis” of AOAC International, 17th Ed AOAC International, Gaithersburg, MD, USA
Hu Y, Ni Y, Ren L, Dai J, Zhao R (2008a) Leptin is involved in the effects of cysteamine on egg laying of hens, characteristics of eggs, and posthatch growth of broiler offspring. Poultry science 87(9):1810-1817
Hu Y, Ni Y, Ren L, Dai J, Zhao R (2008b) Leptin is involved in the effects of cysteamine on egg laying of hens, characteristics of eggs, and posthatch growth of broiler offspring. Poultry Science 87(9):1810-7 doi:10.3382/ps.2008-00040
Hunt M, Acton J, Benedict R, et al. Guidelines for meat color evaluation. In: 44th Annual Reciprocal Meat Conference, 1991. National Livestock and Meat Board Chicago, Ill, p 9-12
Jeitner TM, Lawrence DA (2001) Mechanisms for the cytotoxicity of cysteamine. Toxicological sciences 63(1):57-64
Jie H, Ying Y, Dongbo W, Jun M (2006) Effect of Cysteamine on Broilers Growth Performance and Carcass Quality [J]. China Poultry 18(2):1-6
Li LH, Liu XJ (2005) Comparing the different effect of daidzein and cysteamine on performance in hens during late laying period Journal of Northeast Agricultural University 4(2):13-18
Ma X, Lin Y, Zhou G, et al. (2009) Effects of cysteamine supplementation levels on growth performance, meat quality and antioxidant ability of yellow broilers. Chinese Journal of Animal Nutrition 21(6):916-923
Marks H, Washburn K (1991) Plasma and yolk cholesterol levels in Japanese quail divergently selected for plasma cholesterol response to adrenocorticotropin. Poultry science 70(3):429-433
McLeod K, Harmon D, Schillo K, Hileman S, Mitchell Jr G (1995) Effects of cysteamine on pulsatile growth hormone release and plasma insulin concentrations in sheep. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 112(3):523-533
Minitab I (2000) MINITAB statistical software. Minitab Release 13:0
NRC (1994) Nutrient Requirements of Poultry. In: Council NR (ed) National Research Council. vol 9th Rev. Ed. National Academy Press Washington DC.
Nunes JO, Bertechini AG, Brito JÁGd, Makiyama L, Mesquita FR, Nishio CM (2012) Evaluation of cysteamine associated with different energy patterns in diets for broiler chickens. Revista Brasileira de Zootecnia 41(8):1956-1960
Rideau N, Karmann H, Simon J (1990a) Effects of cysteamine administration on plasma concentration of metabolites, pancreatic glucagon and insulin in the chicken. Comparative Biochemistry and Physiology Part A: Physiology 96(2):327-331
Rideau N, Karmann H, Simon J (1990b) Effects of cysteamine administration on plasma concentration of metabolites, pancreatic glucagon and insulin in the chicken. Comparative Biochemistry and physiology A, Comparative Physiology 96(2):327-331
Salam OMA, Baiuomy AR, EL-Shenawy SM (2005) Effect of cysteamine on bile secretion in the rat. Pharmacological Reports 57(345):345-351
Shim K, Vohra P (1984) A review of the nutrition of Japanese quail. World's Poultry Science Journal 40(3):261-274
Tao W, Liu L, Li H, et al. (2020) Effects of coated cysteamine on growth performance, carcass characteristics, meat quality and lipid metabolism in finishing pigs. Animal Feed Science and Technology:114480
Urdaneta A, Jiménez AR, Paramio M-T, Izquierdo D (2004a) Cysteamine, glutathione and ionomycin treatments improve in vitro fertilization of prepubertal goat oocytes. Zygote 12(4):277
Urdaneta A, Jiménez AR, Paramio MT, Izquierdo D (2004b) Cysteamine, glutathione and ionomycin treatments improve in vitro fertilization of prepubertal goat oocytes. Zygote 12(4):277-284
Vanmontfort D, Berghman LR, Rombauts L, Verhoeven G, Decuypere E (1995) Developmental changes in immunoreactive inhibin and FSH in plasma of chickens from hatch to sexual maturity. British poultry science 36(5):779-790
Wittwer CT, Graves CP, Peterson MA, et al. (1987) Pantethine lipomodulation: evidence for cysteamine mediation in vitro and in vivo. Atherosclerosis 68(1-2):41-49
Wood J, Biely J, Topliff J (1961) The effect of diet, age, and sex on cholesterol metabolism in White Leghorn chickens. Canadian Journal of Biochemistry and Physiology 39(11):1705-1715
Xiao-jie A, Yuan-lin Z, Gen-tao L, Wei-hua C, Zheng-kang H (2004) Effects of cysteamine on the some hormone contents and cholesterol in plasma of adult geese. Zhongguo Shou yi xue bao= Chinese Journal of Veterinary Science 24(04):366-368
Yang CF, Li A, Yin Y, et al. (2005) Effects of dietary supplementation of cysteamine on growth performance, carcass quality, serum hormones and gastric ulcer in finishing pigs. Journal of the Science of Food and Agriculture 85(11):1947-1952
Yang CM, Chen AG, Hong QH, Liu JX, Liu JS (2006) Effects of Cysteamine on Growth Performance, Digestive Enzyme Activities, and Metabolic Hormones in Broilers. Poultry Science 85(2):1912-1916
Zhengkang WYH (1993) Effects of cysteamine on weight gain and levels of ss and β-end in broilers. Journal of Nanjing Agricultural University:S1
Zhou P, Zhang L, Li J, et al. (2015) Effects of dietary crude protein levels and cysteamine supplementation on protein synthetic and degradative signaling in skeletal muscle of finishing pigs. PLoS One 10(9):e0139393
Zhu J-j, Le G-w, Shi Y-h, PANG L, REN A-c (2007) Effects of cysteamine on plasma lipids and anti-oxidant capacity of rats. Acta Agriculturae Zhejiangensis 19(1):25
Zhu Y, Zhou P, Zhang L, Li J, Gao F, Zhou G (2018) Effects of dietary crude protein levels and cysteamine supplementation on meat quality and related indices of finishing pigs. Canadian Journal of Animal Science 99(1):123-131