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RUMENDE UÇUCU YAĞ ASİTLERİ İLE PROTEİN ÜRETİMİ VE ÖLÇÜLMESİ

VOLATILE FATTY ACIDS AND PROTEIN PRODUCTION IN THE RUMEN AND THEIR MEASUREMENT

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Abstract (2. Language): 
The ruminant animals diet contains a considerable amount of carbohydrate and protein. Carbohyrates account for %70-80 of dry matter in a normal dairy diet. Fermentation of carbohydrates in the rumen yields volatile fatty acids (VFA) including acetic acid, propionic acid and butyric acid. The fermentation of carbonhydates also results in the production of energy in the form of ATP. The energy and VFA can be used by micro-organisms for the growth and maintanance. Like carbonhydrates, proteins are hydrolysed into peptides and amino asit by rumen micro-organisms. Most amino acids are further degraded to ammonia. The nutritive value of protein depends on the rate and extent of degradation in the rumen. The undegraded protein (UDP) become available in the small intestine. The mikroorganisms use the end products of protein degradation for growth and maintanence. As can be seen that protein metabolism in the rumen can be divided into two steps: degradation of protein and production microbial dry matter by micro-organisms using the energy produced as a result of carbohydrate fermentation.
Abstract (Original Language): 
Bilindiği üzere karbonhidratlar ve protein ruminantlar için kullanılan yemlerin ana bileşenidir. Bir süt ineği rasyonunun toplam kuru maddesinin % 70- 80’i karbonhidratlardan oluşur. Bununla beraber karbonhidratların sindirim sisteminden absorbe edilen kısmı çok sınırlıdır. Bunun nedeni karbonhidratların rumende fermentasyona uğraması ile uçucu yağ asitleri olarak bilinen asetik asit, propiyonik asit ve butirik asit meydana gelmesidir. Fermentasyon sonucu oluşan bu uçucu yağ asitleri rumende bulunan mikrobiyal populasyonun yaşamı için enerji ve karbon kaynağı olarak kullanılır. Uçucu yağ asitleri mikrobiyal aktivitenin bir yan ürünü olarak ortaya çıkar. Karbonhidratlarda olduğu gibi, rumene gelen protein de mikrobiyal etkiye uğrar ve bir kısmı rumende parçalanır. Yemdeki proteinin parçalanma derecesi başta hayvana ve mikroorganizmanın varlığı olmak üzere pek çok faktöre bağlıdır. Bu faktörler proteinin besin değerini belirler. Rumende parçalanan protein ile rumen mikroorganizmalarının ihtiyacı olan yaşamsal besinler sağlanırken, rumende parçalanmayıp ince barsakta kullanılabilir hale gelen proteindeki amino asitlerden de konukçu hayvanlar yararlanır. Rumendeki azot metabolismasını iki ana bölüme ayırmak mümkündür. Birincisi proteinlerin rumende parçalanması ikincisi ise rumen mikroorganizmaların proteolitik fermentasyonu sonucu sağlanan enerji yardımı ile kuru madde sentezidir. Bu makalede rumende uçucu yağ asitleri ve protein sentezi ile bunların ölçüm yöntemleri üzerinde durularak, bu konuda son yıllarda yapılan araştırmalar özetlenmiştir.
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REFERENCES

References: 

1. SUTTON, J.D ., 1981. Concentrate Feeding and Milk Composition. In Recent
Advances in Animal Nutrition. Eds. W. Haresing. Butterworths, London.
Pp.35-48.
2. BERGMAN, E.N and WOLF, J. E., 1971. Metabolism of Volatile Fatty Acids by
Liver and Portal Drained Viscera in Sheep. Amn. J. Physiol., 221:586-592.
3. HUNTINGTON, G.B. AND REYNOLDS, P.J., 1983. Net Volatile Fatty Acid
Absorption in Nonlactating Cows. J. Dairy Science., 66:86-93.
4. HUNTINGTON, G.B AND REYNOLDS, P.J., 1986. Net Absorption of Glucose.
Lactate. Volatile fatty acids and nitrogenous compounds by bovine given
abomasal infusions of starch or glucose. J. Dairy Science., 69:2428-2436.
5. LOMAX, M.A AND BAIRD, G.D., 1983. Blood Flow and Nutrient Exchange
Across the Liver and Gut of Dairy Cow. Br. J. Nutr., 49:481-496.
6. BERGMAN, E.N., 1990. Energy Contributions of Volatile Fatty Acids from the
Gastrointestinal Tract in Various Species. Physiol. Rev., 70:567-590
7. MURPHY, M.R., BALDWIN, R.L AND KOONG, L.G.,1982. Estimation of
Stoichiometric Parameters for Rumen Fermentation of Roughage and
Concentrate Diets. J. Anim. Sci. 55:441-420.
8. BALDWIN, R.L., LUCAS, H.L AND CABRERA, R., 1970. Energetic
Relationships in the Formation and Utilisation of Fermentation End Products.
In Physiology of digestion and metabolism in the ruminant. Ed. A.T.
Philipson. Oriel Press. p..319-335
9. BLACK, J.L., BEEVER D.E FAICHNEY, G.Y., HOWARTH, B.R AND
GRAHAM, M.MAC., 1981. Simulation of Effects of Rumen Function on the
Flow of Nutrients from Stomach of Sheep. Part 1 – Description of a computer
program. Agricultural Systems, 6:195-219.
10. MURPHY, M.R., BALDWIN, R.L AND ULYATT, M.J., 1986. An update of a
Dynamic Model of Ruminant Digestion. J. Anim.Sci. 62: 1412-1422.
11. SUTTON, D. J., 1980. Digestion and End Product Formation in the Rumen from
Production Rations. In Digestive physiology and metabolism in ruminants.
Eds. Y.Ruckebush and P. Thivend. MTP-Press. Pp.271-290.
12. THOMAS, P.C. AND ROOK, J.A.F., 1981. Manipulation of Rumen
Fermentation. In Recent developments in ruminant nutrition. Eds. W.
Haresıgn and D.J.A Cole. Butterworths, London. p.157-183
13. PALMQUIST, D. L., 1988. The Feeding Value of Fats. In Feed Science. World
Animal Science. 4B. E.R. Orskov. Elsevier. Pp.293-311.
14. MEHREZ, A.Z AND ORSKOV, E.R., 1977. A Study of Artificial Fibre Bag
Technique for Determining the Digestibility of Feeds in the Rumen. J.Agric.
Sci., Camb. 88:645-650.
15. ORSKOV, E.R AND MCDONALD, I., 1979. The Estimation of Protein
Degradability in the Rumen from Incubation Measurements Weighted
According to Rate of Passage. J.Agric. Sci. Camb. 92:499-503.
16. KRISTENSEN, E.S., MOLLER, P.D. AND HVELPLUND, T., 1982.
Estimation of the Effective Protein Degradability in the Rumen of Cows
Using the Naylon Bag Technique Combined with the Outflow Rate.Acta
Agric. Scand., 32:123-127
17. SIDDONS, R. J AND PARADINE, J., 1981. Effect of Diet on Protein
Degrading Activity in the Sheep Rumen. J. Sci. Food Agric., 32:979-981.
18. ERFLE, J.D., BOILA, R.J., TEATHER, R.M., MAHADEVAN, S AND
SAVER, F.D. 1982. Effect of pH on Fermentation Characteristics and Protein
Degradation by Rumen Micro-organism in Vitro. Journal of Animal Science.
65:1457-1514.
19. ELIMAN, M.E. AND ORSKOV, E.R., 1984a. Factors Affecting the Outflow of
Protein Supplements from the Rumen. 1. Feeding level. Anim. Prod. , 38:45-
51
20. ELIMAN, M.E. AND ORSKOV E.R., 1984b Factors Affecting the Outflow of
Protein Supplements from the Rumen. 2. The composition and particle size
of basal diet. Anim. Prod., 39:210-216.
21. SIDDONS, R. C., BEEVER, D.E AND NOLAN J. V., 1982. A Comparison of
Methods for Estimation of Microbial Nitrogen in Duodenal Digesta of Sheep.
Br. J. Nutrition, 48:377-389.
22. WHITELAW, G., EADIE, J. M., BRUCE, L. A AND SHAND W.J ., 1984.
Microbial Protein Synthesis in Cattle Given Roughage-Concentrate and Allconcentrate
Diets. Brt. J. Nutrition, 52:249-260.
23. HVELPUND, T. AND MADSEN, J., 1985. Amino Acid Passage to the Small
Intestine in Dairy Cows Compared with Estimates of Microbial Protein and
Undegraded Dietary Protein from Analysis on the Feed. Acta. Agric. Scand.
Suppl. 25:21-36.
24. MCALLAN, A. B., COCKBURN, J.E WILLAMS A.P AND SMITH, R.H
,1988. The Degradation of Different Protein Supplements in the Rumen of
Steers and the Effects of these Supplements on Carbohydrate Digestion. Br.
J. Nutr., 60:669-682
25. INRA., Alimentation des ruminants. Instıtut National de la Recherche
Agronomique. INRA editions. Versailles, France. p. 597
26. Agricultural Research Council (ARC), 1984. The Nutrient Requirements of
Ruminant Livestock, Supplement No:1 Agricultural Research Council, 45 pp.
27. SANTOS, K. A., STERN, M. D, SATTER, L. D., 1984. Protein Degradation in
Rumen and Amino acid Absorption in the Small Intestine of Lactating Dairy
Cattle Fed various protein sources. J. Dairy Sci. 58:244-245.
28. STERN, M. D., SANTOS, K. A SATTER L.D., 1985. Protein Degradation in
Rumen and Amino Acids Absorption in Small Intestine of Lactating Dairy
Cattle Fed Heat Treated Whole Soy Bean. J. Dairy Sci. 68:45-56.
29. VERITE, R. AND PEYRAUD J.L., 1989. The PDI system. In Ruminant
Nutrition. Ed. R.Jarrıge. INRA. John Libbey Eurotext, London, Paris. pp.33-
34.
30. MADSEN, J. AND HVELPLUND, T., 1988. The Influence of Different Protein
Supply and Feeding Level on pH, Ammonia Concentration and Microbial
Protein Synthesis in the Rumen of Cows. Acta. Agric. Scand., 38:115-125.
31. THOMSEN, K.V., 1985. The Specific Nitrogen Requirements of Rumen Microorganisms.
Acta. Agric. Scand., Suppl. 25:125-131.
32. CISZUK, P. AND LINDBERG, J.E., 1988. Responses in Feed Intake,
Digestibility and Nitrogen Retention in Lactating Dairy Goats Fed Increasing
Amounts of Urea and fish meal. Acta. Agric. Scand., 38:381-395.
33. RUSSELL, J.B, SNIFFEN, C.J AND VAN SOEST P.J ., 1983. Effect of
Carbohydrate Limitation on Degradation and Utilisation of Casein by Mixed
Rumen Bacterial. J. Dairy Science, 66:763-775.
34. RUSSELL, J. B AND HESPELL., 1981. Microbial Rumen Fermentation. J.
Dairy Science, 64:1153-1169.
35. DURAND, M. AND KAWASHIMA, R., 1980. Influence of Minerals in Rumen
Microbial Digestion. In Digestive physiology and metabolism in ruminants.
Eds. Y. Ruchebush and P. Thivend. MTP Press Limited. pp. 375-408.
36. DURAND, M. AND KOMISARCZUK, S., 1988 . Influence of Major Minerals
on Rumen Microbiota. J. Nutr.,118:249-260.
37. RUSSELL, J.B AND WALLACE, R.J., 1988. Energy Yielding and Consuming
Reactions. In the Rumen Microbial Ecosystem. Ed. P.N. Hobson. Elsevier
Applied Science.pp.185-215.
38. KRISTENSEN, V.F AND WEISBERG, M.R., 1990. New Approach to Feed
Evaluation for Ruminants. A note to meeting of the Nordic Working group
on feed evaluation in Iceland. August 12-13, 1990. 21 pp.
39. BORSTING, C.F AND WEISBERG M.R., 1989. Fatty Acid Metabolism in the
Digestive Tract of Ruminants. Ph.D Thesis The Royal Veterinary and
Agricultural University, Copenhagen. p. 249.

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