comparación entre marcadores microbianos - Inia
comparación entre marcadores microbianos - Inia
comparación entre marcadores microbianos - Inia
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26 M.D. CARRO<br />
PROKSCH G., 1972. 14 N/ 15 N ratio determination by emission spectrometry and its present possibilities. In: Tracer<br />
Studies on Non-protein Nitrogen for Ruminants. International Atomic Energy Agency, Vienna, pp.<br />
163-169.<br />
QUIGLEY J.D., SCHWAB C.G., 1988. Comparison of D-alanine and diaminopimelic acid as bacterial markers<br />
in young calves. J. Anim. Sci., 66, 758-767.<br />
RAHNEMA S.H., THEURER B., 1986. Comparison of various amino acids for estimation of microbial nitrogen<br />
digesta. J. Anim. Sci., 63, 603-612.<br />
RANILLA M.J., CARRO M.D., LÓPEZ S., VALDÉS C., NEWBOLD J.C., WALLACE R.J. 2000. 15 N-ammonia<br />
incorporation by ruminal bacteria growing on different N sources. Repr. Nutr. Develop., 40:2, 199.<br />
RANILLA M.J., TEJIDO, M.L., CARRO M.D., 2001. Comparación de diversos métodos de desligamiento de<br />
bacterias ruminales asociadas a la fase sólida de la digesta en un sistema in vitro (Rusitec). ITEA (Vol. extra),<br />
22, pp. 382-384.<br />
ROBINSON P.H., FADEL J.G., IVAN M., 1996. Critical evaluation of diaminopimelic and robonucleic acid as<br />
markers to estimate rumen pools and duodenal flows of bacterial and protozoal nitrogen. Can. J. Anim.<br />
Sci., 76, 587-597.<br />
RUSSELL J.B., O’CONNOR J.D., FOX D.G., VAN SOEST P.J., SNIFFEN C.J., 1992. A net carbohydrate and<br />
protein system for evaluating cattle diets: I. Ruminal fermentation. J. Anim. Sci., 70, 3551-3561.<br />
SCHELLING G.T., BRYERS F.M., 1984. Cytosine as a marker for microbial nitrogen leaving the rumen. Can.<br />
J. Anim. Sci., 64 (Suppl.), 62-71.<br />
SCHNIFFEN C.J., ROBINSON P.H., 1987. Microbial growth and flow as influenced by dietary manipulation.<br />
J. Dairy Sci., 70, 425-441.<br />
SCHÖNHUSEN ULRIKE, VOIGT J., KREIENBRING F., TEUSCHER F., 1995. Bewertung verschiedener<br />
Marker für die Messung der Mikrobiellen Stickstoffpassage am Duodenum der Milchkuh. Arch. Anim.<br />
Nutr., 48, 147-158.<br />
SIBANDA S., TOPPS J.H., STORM E., ØRSKOV E.R., 1982. The excretion of allantoin by ruminants in relation<br />
to protein entering the abomasum. Proc. Nutr. Soc., 41, 75A.<br />
SIDDONS R.C., BEEVER D.E., NOLAN J.V., 1982. A comparison of methods for the estimation of microbial<br />
nitrogen in duodenal digesta of sheep. Br. J. Nutr., 48, 377-389.<br />
SMITH R.H., MCALLAN A.B., HEWITT P., LEWIS P.E., 1978. Estimation of amounts of microbial and dietary<br />
nitrogen compounds entering the duodenum of cattle. J. Agric. Sci., Camb., 90, 557-568.<br />
STANGASSINGER M., CHEN X.B., LINDBERG J.E., GIESECKE D., 1995. Metabolism of purines in relation<br />
to microbial production. In: Ruminant Physiology: Digestion, Metabolism, Growth and Reproduction.<br />
Engelhardt, W.w., Leonhard-Marek, S., Breves, G., Giesecke, D., eds. Ferdinand Enke Verlag, Stuttgart,<br />
pp. 387-406.<br />
STERN M.D., HOOVER W.H., 1979. Methods for determining and factors affecting rumen microbial protein<br />
synthesis: a review. J. Anim. Sci., 49, 1590-1603.<br />
STERN M.D., VARGA G.A., CLARK J.H., FIRKINS J.L., HUBER J.T., PALMQUIST D.L., 1994. Evaluation<br />
of chemical and physical properties of feeds that affect protein metabolism in the rumen. J. Dairy Sci., 77,<br />
2762-2786.<br />
TEJIDO M.L., CARRO M.D., RANILLA M.J., ARÍN M.J., DÍEZ M.T., LÓPEZ S., 2001. Utilización de 15 Ny<br />
bases púricas como <strong>marcadores</strong> para estimar la síntesis microbiana in vitro. ITEA (Vol. extra), 22, pp.<br />
385-387.<br />
TITGEMEYER E.C., MERCHEN N.R., BERGER L.L., 1989. Evaluation of soybean meal, corn gluten meal,<br />
blood meal and fish meal as sources of nitrogen and amino acids disappearing from the small intestine of<br />
steers. J. Anim. Sci., 67, 262-275.<br />
TOPPS J.H., ELLIOTT R.C., 1965. Relationship between concentrations of ruminal nucleic acids and excretion<br />
of purine derivatives by sheep. Nature (Lond.), 205, 498-499.<br />
USHIDA K., LASSALAS B., JOUANY J.P., 1985. Determination of assay parameters for RNA analysis in bacterial<br />
and duodenal samples by spectrophotometry. Influence of sample treatment and preservation. Reprod.<br />
Nutr. Develop., 25, 1037-1046.<br />
VAN NEVEL C.J., DEMEYER D.I., 1977. Determination of rumen microbial growth in vitro from 32 P-labelled<br />
phosphate incorporation. Br. J. Nutr., 38, 101-114.<br />
VERBIC J., CHEN X.B., MACLEOD N.A., ØRSKOV E.R., 1990. Excretion of purine derivatives by ruminants:<br />
effect of microbial nucleic acid infusion on purine derivative excretion by steers. J. Agric. Sci.,<br />
Camb., 114, 243-248.<br />
WALKER D.J., NADER C.J., 1975. Measurement in vivo of rumen microbial protein synthesis. Aust. J. agric.<br />
Res., 26, 689-698.<br />
WALLACE, R.J., WEST, A.A., 1982. Adenosine triphosphate and deoxyribonucleic acidin the alimentary tract<br />
of cattle fed different N sources. J. Appl. Bacteriol., 45, 49-57.