Blood Profile of Beef Cattle offered Mulberry Leave Meal to Substitute Feed Concentrate
DOI:
https://doi.org/10.20956/jitp.v1i1.659Abstract
The purpose of this experiment was to examine the effects of mulberry leave meal to substitute concentrate in rice straw based ration on blood profiles of Ongole crossbreed cattle. This experiment was carried out according to completely randomized design consisted of 3 treatments and 4 replications. The treatments were P1 (50% rice straw + 50% concentrate), P2 (50% rice straw + 25% concentrate + 25% mulberry leave meal), and P3 (50% rice straw + 50% mulberry leave meal). Parameters measured were blood profiles, i.e. blood glucose, blood cholesterol and blood HDL. The results showed that substitution of concentrate with mulberry leave meal significantly reduced (P<0.05) blood glucose and increased blood cholesterol and HDL. It is concluded that mulberry leave meal can be used to substitute concentrate and give a positive effect on glucose, cholesterol,and HDL contents of blood.Downloads
References
Arai, M., S. Minatoguchi, G. Takemura, Y. Uno, T. Kariya, H. Takatsu, T. Fujiwara, M. Higashioka, Y. Yoshikuni and H. Fujiwara. 1998. N-Methyl-1-deoxynojirimycin (MOR-14), an α-glucosidase inhibitor, markedly reduced infarct size in rabbit hearts. A Heart Assoc., 97: 1290-1297.
Boschini, C. F. 2002. Nutritional quality of mulberry cultivation for ruminant feeding. In: Mulberry for Animal Production., Ed. M. D. Sánchez. Proc. of an electronic conference. Carried out in May and August 2000. Rome: FAO Animal Production and Health Paper 147. pp. 173-182.
Breitmeier, D. 1997. Acarbose and 1-deoxynojirimycin inhibit maltose and maltooligosaccharide hydrolysis of human intestinal glucoamylase-maltase in two different substrate-induced modes. Archives Biochem & Biophys., 346(1): 7-14.
Chapel, C., C. Garcia, P. Roingeard, N. Zitzmann, J. Dubuisson, R. A. Dwek, C. Trepo, F. Zoulim and D. Durantel. 2006. Antiviral effect of α-glucosidase inhibitors on viral morphogenesis and binding properties of hepatitis C virus-like particles. J. Gen. Virol., 87: 861-871.
Datta, R. K. 2002. Mulberry cultivation and utilization in India. In: Mulberry for animal production., Ed. M. D. Sánchez. Proc. of an electronic conference. Carried out in May and August 2000. Rome: FAO Animal Production and Health Paper 147. pp. 45-62.
Gross, V., T. Andus, T. A. Tran-Thi, R. T. Schwarz, K. Deeker and P. C. Heinrich. 1983. 1-Deoxynojirimycins impairs oligosaccharide processing of alpha 1-proteinase inhibitor and inhibits its secretion in primary cultures of rat hepatocytes. J. Biol. Chem., 258(20): 12203-12209.
Guyton, A. C., dan J. E. Hall. 1997. Fisiologi Kedokteran. Editor Setiawan I, Penerjemah Setiawan I, Tengadi K. A., Santoso A. Penerbit EGC., Jakarta.
Horne, P.M, K. R. Pond, and L. P. Batubara. 1995. Sheep under rubber: prospects and research proirities in Indonesia. In: Integration of Ruminants into Plantation Systems in Southeast Asia. Eds. B. F. Mullen and H. H. Shelton. pp. 58- 64.
Kimura, T. K., K. Nakagawagawa, Y. Saito, K. Yamagishi, M. Suzuki, K. Yamaki, H. Shinmoto and T. Miyasawal. 2004. Determination of 1-deoxynojirimycin in mulberry leaves using hydrophilic interaction chromatography with evaporative light scattering detection. J. Agric. Food Chem., 52 (6): 1415-1418.
Machii, H., A. Koyama, and H. Yamanouchi. 2002. Mulberry Breeding, Cultivation and Utilization in Japan. In: Mulberry for Animal Production., Ed. M. D. Sánchez. Proc. of an electronic conference. Carried out in May and August 2000. Rome: FAO Animal Production and Health Paper 147. pp. 63-72.
Martin, G., F. Reyes, I. Hernandez, and M. Milera. 2002. Agronomic studies with mulberry in Cuba. In: Mulberry for Animal Production., Ed. M. D. Sánchez. Proc. of an electronic conference. Carried out in May and August 2000. Rome: FAO Animal Production and Health Paper 147. pp. 103-114.
Mellor, H. R., J. Nolan, L. Pickering, M. R. Wormald, F. M. Platt, R. A. Dwek, G. W. J. Fleet and T. D. Butters. 2002. Preparation, biochemical characterization and biological properties of radio labelled N-alkylated deoxynojirimycins. Biochem. J., 366: 225 – 233.
Mitruka, B. M., H. M. Rawnsley, and B.V. Vadehra. 1977. Clinical Biochemical and Hematological Reference Values in Normal Experimental Animals. Masson Publishing, Inc., New York.
Oku, T. M. Yamada, M. Nakamura, N. Sadamori and S. Nakamura. 2006. Inhibitory effects of extractives from leaves of Morus alba on human and rat small intestinal disaccaridase activity. J. of Nutr., 95: 933-938.
Romaniouk, A.V., A. Silva, J. Feng, I. K. Vijay. 2004. Synthesis of a novel photoaffinity derivative of 1-deoxynojirimycin for active site-directed labeling of glucosidase I. Glycobiology, 14(4): 301-310.
Singh, B., and H. P. S. Makkar. 2002. The potential of mulberry foliage as a feed supplement in India. In: Mulberry for animal production., Ed. Sánchez M.D. Proceedings of an electronic conference. Carried out in May and August 2000. FAO Animal Production and Health Paper 147. pp.139-156.
Suyadi, Soedomo, dan A. Mahmud. 1989. Produksi biji legum Desmanthus virgatus. In: Forage Production, Eds. M. Wodzicka, M. Tomaszewska, J. A. Thompson. Proceeding of A Workshop Conducted at IPB Bogor, Indonesia. IPB-Australian Project.
Syahrir, S. 2009. Potensi Daun Murbei dalam Meningkatkan Nilai Guna Jerami Padi sebagai Pakan Sapi Potong. Disertasi. Sekolah Pascasarjana IPB, Bogor.
Syahrir, S., K. G. Wiryawan, A. Parakkasi, M. Winugroho dan W. Ramdania, 2009. Daya Hambat Hidrolisis Karbohidrat Oleh Ekstrak Daun Murbei. Agripet, Vol. 10(2): 1–9.
Wirahadikusumah, M. 1985. Biokimia: Metabolisme Energi, Karbohidrat dan Lipid. Penerbit ITB, Bandung.
Yatsunami K., Y. Saito, E. Fukuda., S. Onodera, and K. Oshigane. 2003. α- Glucosidase inhibitory activity in leaves of some mulberry varieties. J. of Food Sci. Technol., 9(4): 392-394.