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http://dx.doi.org/10.5713/ajas.2002.1725

Distribution and Activities of Hydrolytic Enzymes in the Rumen Compartments of Hereford Bulls Fed Alfalfa Based Diet  

Lee, S.S. (Department of Dairy Science, Gyeongsang National University)
Kim, C.-H. (National Livestock Research Institute, Rural Development Administration)
Ha, J.K. (School of Agricultural Biotechnology, Seoul National University)
Moon, Y.H. (Department of Animal Science and Biotechnology, Chinju National University)
Choi, N.J. (School of Agricultural Biotechnology, Seoul National University)
Cheng, K.-J. (Institute of BioAgricultural Resources, Academia Sinica)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.15, no.12, 2002 , pp. 1725-1731 More about this Journal
Abstract
The distribution and activities of hydrolytic enzymes (cellulolyti, hemicellulolytic,pectinolytic and others) in the rumen compartments of Hereford bulls fed 100% alfalfa hay based diets were evaluated. The alfalfa proportion in the diet was gradually increased for two weeks. Whole rumen contents were processed into four fractions: Rumen contents including both the liquid and solid fractions were homogenized and centrifuged, and the supernatant was assayed for enzymes located in whole rumen contents (WRE); rumen contents were centrifuged and the supernatant was assayed for enzymes located in rumen fluids (RFE); feed particles in rumen contents were separated manually, washed with buffer, resuspended in an equal volume of buffer, homogenized and centrifuged and supernatant was assayed for enzymes associated with feed particles (FAE); and rumen microbial cell fraction was separated by centrifugation, suspended in an equal volume of buffer, sonicated and centrifuged, and the supernatant was assayed for enzymes bound with microbial cells (CBE). It was found that polysaccharide-degrading proteins such as $\beta$-1,4-D-endoglucanase, $\beta$-1,4-D-exoglucanase, xylanase and pectinase enzymes were located mainly with the cell bound (CBE) fraction. However, $\beta$-D-glucosidase, $\beta$-D-fucosidase, acetylesterase, and $\alpha$-L-arabinofuranosidase were located in the rumen fluids (RFE) fraction. Protease activity distributions were 37.7, 22.1 and 40.2%, and amylase activity distributions were 51.6, 18.2 and 30.2% for the RFE, FAE and CBE fractions, respectively. These results indicated that protease is located mainly in rumen fluid and with microbial cells, whereas amylase was located mainly in the rumen fluid.
Keywords
Rumen; Hydrolytic Enzyme; Polysaccharidases; Glycosidases; Enzyme Distributions;
Citations & Related Records

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1 Craig, W. M., G. A. Broderick and D. B. Ricker. 1987b. Quantitation of microorganisms associated with the particulate phase of ruminal ingesta. J. Nutr. 117:56-62.   PUBMED
2 Gilbert, H. J., G. P. Hazlewood, J. L. Laurie, C. G. Orpin and G. P. Xue. 1992. Homolytic catalytic domains in rumen fungal xylanase: homologous catalytic domains in a fungal xylanase: evidence for gene duplication and prokaryotic origin. Mol. Microbiol. 6:2065-2072.   DOI   PUBMED   ScienceOn
3 Grouleau, D. and C. W. Forsberg. 1981. Cellulolytic activity of the rumen bacterium Bacteroides succinogenes. Can. J. Microbiol. 29:504-517.   DOI   ScienceOn
4 Lee, S. S., K. J. Shin, W. Y. Kim, J. K. Ha and I. K. Han. 1999. The rumen ecosystem : As a fountain source of nobel enzymes. Asian-Aus. J. Anim. Sci. 12(6):988-1001.
5 Legay-Carmier, F and D. Bauchart. 1989. Distribution of bacteria in the rumen contents of dairy cows given a diet supplemented with soya-bean oil. Brit. J. Nutr. 61:725-740.   DOI   PUBMED   ScienceOn
6 Lever, M. 1977. Carbohydrate determination with 4-hydroxybenzoic acid hydrazide (PAHBAH): effect of bismuth on the reaction. Anal. Biochem. 81:21-27.   DOI   ScienceOn
7 Pettipher, G. L. and M. J. Latham. 1979a. Characteristics of enzymes produced by Ruminococcus flavefaciens rumen bacteria which degrade plant cell walls. J. Gen. Microbiol. 110:21-27.
8 Wallace, R. J., R. Onodera and M. A. Cotta. 1988. Metabolism of nitrogen-containing compounds. In: The Rumen Microbial Ecosystem. (Ed. P. N. Hobson and C. S. Stewart). Elsevier Applied Science, London. pp. 283-328
9 Willams, A. G., I. M. Morrison, N. H. Strachan and R. E. Brice. 1984. Distribution of glycoside hydrolases and polysaccharide depolymerases associated with the particulate fraction from the bovine rumen and an artificial rumen. Appl. Biochem. Biotechnol. 9:419-420.   DOI
10 중복. 삭제 바람
11 Williams, A. G. and N. H. Strachan. 1984. The distribution of polysaccharide-degrading enzymes in the bovine rumen digesta ecosystem. Curr. Microbiol. 10:215-220.   DOI
12 Ali, B. R. S., L. Zhou, F. M. Graves, R. B. Freedman, G. W. Black, H. J. Gilbert and G. P. Hazlewood. 1995. Cellulases and hemicellulases of the anaerobic fungus Piromyces constitute a multiprotein cellulose-binding complex and are encoded by multigene families. FEMS Microbiol. Lett. 125:15-22.   DOI   PUBMED
13 Flint, H. J., J. X. Zhang and J. Martin. 1994. Multiplicity and expression of xylanase in the rumen cellulolytic bacterium Ruminococcus flavefaciens. Curr. Microbiol. 29:139-143.   DOI
14 Michel, V., G. Fonty, L. Millet, F. Bonnemoy and P. Gouet. 1993. In vitro study of the proteolytic activity of rumen anaerobic fungi. FEMS Microbiol. Lett. 110:5-9.   DOI   PUBMED
15 Attwood, G. T. and K. Reilly. 1995. Identification of proteolytic rumen bacteria isolated from New Zealand cattle. J. Appl. Bacteriol. 79:22-29.   PUBMED
16 Cheng, K. J. and T. A. McAllister. 1997. Compartmentation in the rumen. In: The Rumen Microbial Ecosystem (Ed. P. N. Hobson and C. S. Stewart). Elsevier Applied Science, London. pp. 492-522.
17 Tagawa, K. and A. Kaji. 1988. Polygalacturonase from Corticium rofsii. In: Methods in Enzymology (Ed. W. A. Wood and S. T. Kellogg). Academic Press, San Diego. pp. 361-365.
18 Chesson, A., C. S. Stewart, K. Dalgarno and T. P. King. 1986. Degradation of isolated grass mesophyll, epidermis and fibre cell walls in the rumen and by cellulolytic rumen bacteria in axenic culture. J. Appl. Bacteriol. 60:327-336.
19 Coleman, G. S. 1986. The amylase activity of 14 species of entodiniomorphid protozoa and the distribution of amylase in digesta fractions of sheep containing no protozoa or one of seven different protozoal populations. J. Agric. Sci. 107:709-721.   DOI
20 Martin, C. and B. Michalet-Doreau. 1995. Variations in mass and enzyme activity of rumen microorganisms: effect of barley and buffer supplements. J. Sci. Food Agric. 67:407-413.   DOI   ScienceOn
21 Malburg, L. M. and C. W. Forsberg. 1993. Fibrobacter succinogenes possesses at least nine distinct glucanase genes. Can. J. Microbiol. 39:882-891.   DOI   ScienceOn
22 Forsberg, C. W., J. J. Beveridge and A. H. Hellstrom. 1981. Cellulase and xylanase release from Bacteroides succinogenes and its importance in the rumen environment. Appl. Environ. Microbiol. 42:886-896.   PUBMED
23 Gong, C. S. and G. T. Tsao. 1979. Cellulase biosynthesis and regulation. Ann. Rep. Ferm. Proc. 3:111-140.
24 Trinci, A. P. J., D. R. Davies, K. Gull, M. L. Lawrence, B. B. Nielsen, A. Rickers and M. K. Theodorou. 1994. Anaerobic fungi in herbivorous animals. Mycol. Res. 98:129-152.   DOI
25 Chesson, A. and C. W. Forsberg. 1988. Polysaccharide degradation by rumen microorganisms. In: The Rumen Microbial Ecosystem (Ed. P. N. Hobson and C. S. Stewart). Elsevier Applied Science, London. pp. 329-381
26 Leatherwood, J. M. 1965. Cellulase from Ruminococcus albus and mixed rumen microorganisms. Appl. Microbiol. 13:771-775.   PUBMED
27 Pettipher, G. L. and M. J. Latham. 1979b. Production of enzymes degrading plant cell walls and fermentation of cellobiose by Ruminococcus flavefaciens in batch and continuous culture source of energy for ruminant herbivores. J. Gen. Microbiol. 110:29-38.
28 Doerner, K. C. and B. A. White. 1990. Assessment of the endo- - 1,4-glucanase components of Ruminococcus flavefaciens FD-1. Appl. Environ. Microbiol. 56:1844-1850.   PUBMED
29 Wells, J. E. and J. B. Russell. 1996. Why do many ruminal bacteria die and lyse so quickly? J. Dairy Sci. 79:1487-1495.   DOI   PUBMED   ScienceOn
30 Yazdi, M. T., J. R. Woodward and A. Radford. 1990. The cellulase complex of Neurospora crassa: activity, stability and release. J. Gen. Microbiol. 136:1313-1319.   PUBMED
31 Merry, R. J. and A. B. McAllan. 1983. A comparison of the chemical composition of mixed bacteria harvested from the liquid and solid fractions of rumen digesta. Br. J. Nutr. 50:701-709.   DOI   PUBMED   ScienceOn
32 Nelson, N. 1944. A photometric adaptation of the Somogyi method for the determination of glucose. J. Biologic. Chem. 54:2675-2680.
33 Craig, W. M., D. R. Brown, G. A. Broderick and D. B. Ricker. 1987a. Post-prandial compositional changes of fluid- and particle-associated ruminal microorganisms. J. Anim. Sci. 65:1042-1048.   PUBMED
34 Lee, S. S., J. K. Ha and Y. J. Choi. 1995. Studies on the isolation and identification of rumen fungi, characterization of cellulolytic fungal enzymes, and its industrial utilization: V. Cellulolytic enzyme assessments of ruminal fungi isolated from the rumen of Korean native cattle and goat. Kor. J. Anim. Feed. 19(6):507-524.
35 Somogyi, M. 1952. Notes of sugar determination. J. Biologic. Chem. 195:19-23.
36 Forsberg, C. W. and L. Lam. 1977. Use of adenosine 5'- triphosphate as an indicator of the microbiota biomass in bovine rumen contents. Appl. Environ. Microbiol. 33: 528-537.   PUBMED