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2013 | 22 | 4 |

Tytuł artykułu

Incorporation of endogenous urea nitrogen into the amino acids of bacterial protein in the rumen of goats fed diets with various protein levels

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The aim of the study was to investigate the effect of different levels of protein in a diet on the incorporation of endogenous urea nitrogen (EUN) into individual amino acids (AA) of the ruminal bacteria of goats fed a low- (LP), medium- (MP), or high-protein diet (HP) in a 3 × 3 Latin square design. Three Alpine goats of about 35 kg body weight fitted with cannula into the rumen and catheter into the jugular vein were fed three isoenergetic diets containing 11% (LP), 13% (MP), or 16% (HP) crude protein in dry matter. The goats were infused for 6 days continuously with an 15N urea solution into the jugular vein. Ruminal bacteria were hydrolysed with 6M HCl. Next, butyl derivatives of free bacterial AA were obtained using HCl in butanol, then N-acylated using trifluoroacetic acid anhydride and analysed by gas chromatography using a mass-selective detector. The concentration of urea in plasma was 178, 356 and 667 mg · l–1 in goats from groups LP, MP and HP, respectively. 15N-excess during the infusion of labelled urea was significantly higher (P < 0.05) in the vast majority of AA of ruminal bacteria from goats fed the LP diet in comparison with goats fed the HP diet. Therefore, the level of protein in the diets affects the incorporation of EUN into bacterial AA. With the LP diet, EUN was incorporated mostly into glutamic acid, isoleucine and arginine, while in the case of the HP diet, into glutamic acid and arginine, as well as methionine. Regardless of the level of nitrogen in the diets, the incorporation of 15N into proline was very low. Irrespective of the dietary nitrogen level, EUN appears to be predominantly used for synthesis of glutamic acid in ruminal bacteria.

Wydawca

-

Rocznik

Tom

22

Numer

4

Opis fizyczny

p.311-315,fig.,ref.

Twórcy

  • The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, 05-110 Jablonna, Poland
autor
  • The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, 05-110 Jablonna, Poland
autor
  • The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, 05-110 Jablonna, Poland
autor
  • The Kielanowski Institute of Animal Physiology and Nutrition, Polish Academy of Sciences, 05-110 Jablonna, Poland

Bibliografia

  • AOAC, 1990. Association of Official Analytical Chemists, Official Methods of Analysis. 15th Edition. Washington, DC
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  • Bunting L.D., Boling J.A., MacKown C.T., Davenport G.M., 1989. Effect of dietary protein level on nitrogen metabolism in the growing bovine: I Nitrogen recycling and intestinal protein supply in calves. J. Anim. Sci. 67, 820–826
  • Conway E.J., 1954. Micro Diffusion Analysis and Volumetric Error. Crosby, Lockwood and Son Ltd. London
  • Czauderna M., Kowalczyk J., 2009. Easy and accurate determination of urea in milk, blood plasma, urine and selected diets of mammals by high-performance liquid chromatography with photodiode array detection preceded by pre-column derivatization. Chem. Anal. (Warsaw) 54, 919–937
  • Gärtner K., Decker P., Hill H., 1961. Untersuchungen über die Passage von Harnstoff und Ammoniak durch die Pansenwand von Ziege. Pflügers Arch. ges. Physiol. 274, 281–288
  • Gehrke C.W., 2005. Quantitation of Amino Acids by Gas-Liquid Chromatography. In: Ibolya Molnar-Perl (Editor). Quantitation of Amino Acids and Amines by Chromatography. Methods and Protocols. Elsevier. Journal of Chromatography Library, 70, 39–97
  • Gibbons R.J., McKarthy R.D., 1957. Obligatory anaerobic urea–hydrolyzing bacteria in the bovine rumen. Maryland Agric. Exp. Sta. Misc. Publ. 291, 12–16
  • Harmeyer J., Martens H., 1980. Aspects of urea metabolism in ruminants with reference to the goat. J. Dairy Sci. 63,1707–1728
  • Havassy I., Kowalczyk J., Horsky K., Košťa K., Otwinowska A., 1982. Incorporation of 15N –urea into individual amino acids of rumen bacteria and blond plasma protein in sheep. Acta Physiol. Pol. 33, 415–419
  • Kennedy P.M., Milligan L.P., 1980. The degradation and utilization of endogenous urea in the gastrointestinal tract of ruminants: A review. Can. J. Anim. Sci. 60, 205–221
  • Kowalczyk J., Havassy I., Otwinowska A., Košťa K., 1975a. Passage of intravenously administered 15N urea into the digestive tract and its excretion in sheep. Acta Physiol. Pol. 26, 299–306
  • Kowalczyk J., Havassy I., Košťa K., Otwinowska A., 1975b. Incorporation of intravenously administered 15N labeled urea in to the bacterial protein in the sheep. Acta Physiol. Pol. 26, 307–312
  • Lapierre H., Lobley G.E., 2001. Nitrogen recycling in the ruminant: A Review. J. Dairy Sci. 84, Suppl. E, E223–E236
  • Meyer R.M., Bartley E.E., Deyoe C.W., Colenbrander V.F., 1967. Feed Processing. I. Ration effects on rumen microbial protein synthesis and amino acid composition. J. Dairy Sci. 50, 1327–1332
  • Michalski J.P., Kowalczyk J., Voigt J., Hammon H.M., Czauderna M., Metges C.C., 2012. Efficiency of endogenous urea 15N nitrogen incorporation into bacterial and milk protein of goats fed diets with three different protein levels. J. Anim. Feed Sci. 21, 599–612
  • Michałowski T., 1990. The synthesis and turnower of the cellular matter of ciliates in the rumen. Acta Protozool. 29, 47–72
  • NRC, 1981. Nutrient Requirements of Domestic Animals. No. 15. Nutrient Requirements of Goats. National Academy Press. Washington, DC
  • Rémond D., Meschy F., Boivin R., 1996. Metabolites, water and mineral exchanges across the rumen wall: Mechanisms and regulation. Ann. Zootech. 45, 97–119
  • Virtanen A.I., 1964. Versuche über Milchproduktion ohne Protein unter ausschließlicher Verwendung von Harnstoff und Ammoniumstickstoff. Nachr. Gies. Hochsch.-Gesell. 33, 73–85

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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