2011

SOYA YAĞI İÇEREN BILDIRCIN RASYONLARINDA DAHA ÇOK BİYOTİNE İHTİYAÇ VARDIR

Bu çalışmanın amacı Japon bıldırcın (Coturnix coturnix Japanica) rasyonlarına ilave edilen biyotinin farklı yağ kaynakları (soya yağı veya don yağı) ile birlikte kullanıldığında performansı ve kimi serum mineral ve metabolit konsantrasyonlarının nasıl etkilendiğini araştırmak idi. On günlük yaşta 120 adet Japon bıldırcını 4 gruba ayrılmıştır. Deneme, 2 X 2 faktöriyel düzende ve rasyonda 2 farklı yağ kaynağı (%5 soya yağı veya %5 don yağı) ve 2 farklı biyotin saplement düzeyi (0 ve 300 mcg/kg rasyon) olacak şekilde oluşturulmuştur. Yem tüketimi rasyondaki yağ türünden ya da biyotin saplement düzeyinden etkilenmemiştir (p > 0.05). Çalışma sonu canlı ağırlık ve yemden yararlanma oranı soya yağı içeren rasyon tüketen bıldırcınlarda don yağı içeren rasyon tüketen bıldırcınlara oranla daha fazla bulunmuştur (p

MORE DIETARY BIOTIN IS NEEDED WHEN DIET OF QUAILS CONTAINS SOYBEAN OIL

The objective of this study was to evaluate the effects of dietary biotin supplementation with different fat sources (soybean oil or beef tallow) on live performance and plasma concentrations of some minerals and metabolites in Japanese quails. One hundred and twenty 10-day-old Japanese quails were assigned to 4 treatment groups. The experiment was designed in a 2 X 2 factorial arrangement using two types of fat source (5% soybean oil or 5% tallow) and two levels of biotin supplements (0 or 300 mcg/kg diet). Feed intake was not influenced by either fat source or biotin supplementation in the diet (p > 0.05). Final body weights and feed efficiency were greater when the diet of quails contained soybean oil compared with that of tallow (p

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1. Wolf B. Disorders of Biotin Metabolism. In: Scriver CR, Beaudet AL, Sly WS, et al. The Metabolic and Molecular Basis of Inherited Disease. McGraw-Hill Inc. New York USA 2001; pp 3151-3177.
2. Coggeshall JC, Heggers JP, Robson MC, Baker H. Biotin status and plasma glucose levels in diabetics. Annals of the New York Academy of Sciences 1985; 447: 389-392.
3. Nagamine T, Saito S, Yamada S, et al. Biotinidase activity in patients with liver disease. Scandinavian Journal of Gastroenterology 1993; 28:899-906.
4. Nagamine T, Takehara K, Fukui T, Mori M. Clinical evaluation of biotin-binding immunoglobulin in patients with Graves' disease. Clinica Chemica Acta 1994; 226:47-54.
5. Zempleni J, Mock DM. Biotin homeostasis during the cell cycle. Nutrition Research Review 2001; 14: 45-63.
6. Misir R, Blair R. Biotin bioavailability of protein supplements and cereal grains for starting turkey poults. Poultry Science 1988; 67:1274-1283.
7. Baez-Saldana AI, Zendejas-Ruiz C, Revilla-Monsalve S, et al. Effects of biotin on pyruvate carboxylase, acetyl-CoA carboxylase, propionyl-CoA carboxylase, and markers for glucose and lipid homeostasis in type 2 diabetic patients and nondiabetic subjects. American Journal of Clinical Nutrition 2004; 79:238 -243.
8. NRC. Nutrient Requirements of Poultry, 9th revised ed. National Academy Press, Washington DC 1994.
9. AOAC. Official Methods of Analysis, 15th ed. Association of Official Analytical Chemists, Arlington VA 1990.
10. SAS. SAS User's Guide: Statistics. SAS Institute Inc, Cary NC 1996.
11. Sanz M, Lopez-Bote CJ, Menoyo D, Bautista JM. Abdominal fat deposition and fatty acid synthesis are lower and beta-oxidation is higher in broiler chickens fed diets containing unsaturated rather than saturated fat. Journal of Nutrition 2000a; 130:3034 -3037.
12. Sanz M, Flores A, Lopez-Bote CJ. The metabolic use of energy from dietary fat in broilers is affected by fatty acid saturation. British Poultry Science 2000b; 41:61-68.
13. Newman RE, Bryden WL, Fleck E, et al. Dietary n-3 and n-6 fatty acids alter avian metabolism: metabolism and abdominal fat deposition. British Journal of Nutrition 2002; 88:11-18.
14. Wongsuthavas S, Terapuntuwat S, Wongsrikeaw W, et al. Influence of amount and type of dietary fat on deposition, adipocyte count and iodine number of abdominal fat in broiler chickens. Journal of Animal Physiology and Animal Nutrition 2008; 92:92-98.
15. Crespo N, Esteve-Garcia E. Dietary fatty acid profile modifies abdominal fat deposition in broiler chickens. Poultry Science 2001; 80:71-78.
16. Whitehead CC, Bannister DW, Cleland ME. Metabolic changes associated with the occurrence of fatty liver and kidney syndrome in chicks. British Journal of Nutrition 1978; 40:221-234.
17. Beynen AC, Katan MB. Why do polyunsaturated fatty acids lower serum cholesterol? American Journal of Clinical Nutrition 1985; 42:560-563.
18. Pinchasov Y, Nir I. Effect of dietary polyunsaturated fatty acid concentration on performance, fat deposition, and carcass fatty acid composition in broiler chicken. Poultry Science 1992: 71:1504-1512.
19. Zollitsch W, Knaus W, Aichinger F, Lettner F. Effects of different dietary fat sources on performance and carcass characteristics of broilers. Animal Feed Science and Technology 1997: 66:63-73.
20. Villaverde C, Baucells MD, Cortinas L, Barroeta AC. Effects of dietary concentration and degree of polyunsaturation of dietary fat on endogenous synthesis and deposition of fatty acids in chickens. British Poultry Science 2006; 47:173-179.
21. Villaverde C, Baucells MD, Cortinas L, Hervera M, Barroeta AC. Chemical composition and energy content of chickens in response to different levels of dietary polyunsaturated fatty acids. Archives of Animal Nutrition 2005; 59: 281-292.
22. Newsholme EA, Leech A. Biochemistry for the Medical Sciences. John Wiley and Sons, New York 1984.
23. Watanabe T, Yasumura S, Shibata H, Fukui T. Biotin status and its correlation with other biochemical parameters in the elderly people of Japan. Journal of the American College of Nutrition 1998; 17:48- 53.
24. Deodhar AD, Mistry SP. Control of glycolisis in biotin deficient rat liver. Life Sciences 1970; 9:581- 588.
25. Chauhan J, Dakshinamurti K. Transcriptional regulation of the glucokinase gene by biotin in starved rats. Journal of Biological Chemistry 1991; 266:10035-10038.
26. Dakshinamurti K, Li W. Transcriptional regulation of the liver phosphoenolpyruvate carboxykinase by biotin in diabetic rats. Molecular and Cellular Biochemistry 1994; 132:127-132.
27. Dakshinamurti K, Chauhan J. Biotin. Vitamins and Hormones 1989; 45:337-384.
28. Romero-Navarro G, Cabrera-Valladares G, German MS, et al. Biotin regulation of pancreatic glucokinase and insulin in primary cultured rat islets and in biotin-deficient rats. Endocrinology 1999; 140:4595-4600.

ISSN: 1018-3655
Yayın Aralığı: Yılda 3 Sayı
Başlangıç: 1993
Yayıncı: Prof.Dr. Aykut ÖZDARENDELİ

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Sayıdaki Diğer Makaleler

Erciyes Üniversitesi Sağlık Bilimleri Enstitüsü Yayın Organıdır

Handan SOYSAL, Emre ATAY, Adem TOKPINAR, Şerife ÇINAR, ANATOMİ EĞİTİMİ HAKKINDAKİ DÜŞÜNCELERİ, Özlem ÖZÇELİK BOZKURT, Uğur DOĞAN

SOYA YAĞI İÇEREN BILDIRCIN RASYONLARINDA DAHA ÇOK BİYOTİNE İHTİYAÇ VARDIR

Osman KUCUK