Effect of oral quercetin administration on the exoskeleton of Barbari goats in subtropics regions
Quercetin administration on the exoskeleton of Barbari goats
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Exoskeleton, Goat, Hairs, Hooves, Horns, Quercetinसार
The present investigation was designed to study find out the influence of oral administration of quercetin on the exoskeleton of goats. The study was carried out on six Barbari goats selected randomly from the herd and offered identical balanced feed. Those were given oral administration of quercetin at the rate of 1.5 mg per Kg live weight, in the morning daily. Samples of hairs, horns, and hooves were collected from goats under experiment on the days 00, 30, 60, and 90 of the experimental trial. The samples were estimated for crude protein, crude fat, and major and trace elements. The data recorded during the experiment were statistically analyzed using suitable models. A salient conclusion based on the study can be drawn that content of crude protein in the exoskeleton, and magnesium in hooves of goats was increased with the advancement in the duration of administration of quercetin in goats.
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Abdin-Bey M R. 2007. Hoof Quality: Correlation between calcium, phosphorus, copper & zinc levels in the hoof shavings and blood levels of arabian horses in saudi arabia. Scientific Journal of King Faisal University (Basic and Applied Sciences) 8 (1): 1428H.
Al Qahtani S M. 2004. Microbial and metal analysis of some patients hair and nails of Alamal Hospital in Riyadh. Thesis: Master of Science in Microbiology, Alamal Hospital Riyadh.
Ali Q M. 2008. Trace metals in scalp hair, plasma and tissues as an index of cancer. Department of Biochemistry/ Quaid-i-Azam University Islamabad.
Allen R J L. 1940. The estimation of phosphorus. Biochem. 1940 (34): 858-865.
Anson D. 2000. Compositional analyses of dentate-stamped Lapita and nail-incised and applied relief pottery from Watom Island. Le Pacifique de 5000 B 2000 avant le present / The Pacific from 5000 to 2000 BP, pp 85-103.
AOAC 1990. Protein (Crude) Determination in Animal Feed: Copper Catalyst Kjeldahl Method. 15th Edition. Association of Official Analytical Chemists.
Aras N K and Ataman O Y. 2006. Trace Element Analysis of Food and Diet. Cambridge: The Royalty Society of Chemistry Publishing.
BoBelmann F, Romano P, Fabritius H, Raabe D and Epple M. 2007. The composition of the exoskeleton of two crustacea: The American lobster Homarus americanus and the edible crab Cancer pagurus. Thermochimica Acta 463 (1-2): 65-66.
Chatt A and Katz S A. 1988. Hair Analysis; Applications in the Biomedical and Environmental Sciences. New York, NY: VCH Publishers.
Davis J M, Murphy E A, Carmichael M D and Davis B. 2009. Quercetin increases brain and muscle mitochondrial biogenesis and exercise tolerance. Am. J. Physiol. Regul. Integr. Comp. Physiol. 296.
Dayong S, Wang Y Zhou, Y H, Guo Y, Wang J, Zhou H, Li Z S and Fawcett J P. 2009. Mechanism of CYP2C9 inhibition by flavones and flavonols. Drug Metabolism and Disposition 37 (3): 629–634.
De Loureiro J A and Janz G J. 1944. Iodometric and Colorimetric Methods for the Estimation of Calcium in Serum based on the Use of an Improved Permanganate Solution. Biochem. 38:16-19.
Denis 1922. Biol. Chem. 60: 522. Quoted by Oser B L. 1965. Hawk’s Physiological Chemistry. 14th Ed. Tata Mcgraw Hill, New Delhi pp. 1138.
Edwards R L, Lyon T, Litwin S E, Rabovsky A, Symons J D, Jalili T. 2007. Quercetin reduces blood pressure in hypertensive subjects. J. Nutr. 137 (11): 2405–2411.
Fowden L. 1951. The Quantitative Recovery and Colorimetric Estimation of Amino-acids Separated by Paper Chromatography. Biochem. J. 45: 327-333.
Futterman S and Saslaw L D. 1961. The Estimation of Vitamin A Aldehyde with Thiobarbituric Acid. The Journal of Biological Chemistry 236 (6): 1652-1657.
Hidiroglou M and Williams C J. 1986. Mineral and amino acid composition of beef cattle hooves. Am J Vet Res. 47 (2): 301-303.
Hsiu S, Hou Y, Wang Y, Tsao C W, Sue S F. and Chao P L. 2002. Quercetin significantly decreased cyclosporin oral bioavailability in pigs and rats. Life Sciences 72 (3): 227–235.
ICAR 1998. Nutritional Requirement of Livestock and Poultry. Indian Council of Agriculture Research, New Delhi.
Jones W A. 1948. Determination of Traces of Iron and Copper in Culture Media Prepared by Enzymic Digestion of Muscle Protein Biochem. 43: 429-433.
Macpherson H T and Stewart J. 1939. The photometric estimation of cobalt. Biochem. 34: 763-767.
Mathpal S and Kandpal N D. 2009. Colorimetric Estimation of Ni (II) Ions in Aqueous Solution. E-Journal of Chemistry 6 (2): 445448.
Mehren M. 2009. Hoof Cracks. Oregon Feed and Grain Association, Inc. 2000-2009.
Murakami A, Ashida H and Terao J. 2008. Multitargeted cancer prevention by quercetin. Cancer Lett. 269 (2): 315–325.
Neuhouser M L. 2004. Dietary flavonoids and cancer risk: evidence from human population studies. Nutr. Cancer 509 (1): 1–7.
Onwuka S K, Avwioro O G, Akpan M O and Yahaya A. 2001. Distribution of cobalt, manganese and iron in the skin and hair of West African dwarf sheep and goats in Nigeria. African Journal of Biomedical Research 4 (3): 151-154.
Paliwal S, Sundaram J and Mitragotri S. 2005. Induction of cancer specific cytotoxicity towards human prostate and skin cells using quercetin and ultrasound. British Journal of Cancer 92 (3): 499– 502.
Raucy J L. 2003. Regulation of CYP3A4 Expression in Human Hepatocytes by Pharmaceuticals and Natural Products. Drug Metabolism and Disposition 31 (3): 533–539.
Rietjens I M, Boersma M G, van der Woude H, Jeurissen S M, Schutte M E and Alink G M. 2005. Flavonoids and alkenylbenzenes: mechanisms of mutagenic action and carcinogenic risk. Mutat. Res. 574 (1-2): 124–138.
Robertson J D and Webb D A. 1938. The micro-estimation of sodium, potassium, calcium, magnesium, chloride, and sulphate in sea water and the body fluids of marine animals. J.E.B. 16 (2): 155177.
Shoskes D A. 1999. Quercetin in men with category III chronic prostatitis: a preliminary prospective, double-blind, placebocontrolled trial. Urology 54 (6): 960–963.
Snedecor G W and Cochran W G. 1994. Statistical Methods, 8th Ed., Ames, Iowa State University Press.
Spruit D and Bongaarts P J. 1977. Nickel Content of Plasma, Urine and Hair in Contact Dermatitis. Dermatologica 154 (5): 291-300.
Stewart L K, Soileau J L, Ribnicky D, Wang Z Q, Raskin, I., Poulev, A., Majewski, M., Cefalu, W.T. and Gettys T W. 2008. Quercetin transiently increases energy expenditure but persistently decreases circulating markers of inflammation in C57BL/6J mice fed a high-fat diet. Metabolism 57p.
van der Woude H, Alink G M and van Rossum B E. 2005. Formation of transient covalent protein and DNA adducts by quercetin in cells with and without oxidative enzyme activity. Chem. Res. Toxicol. 18 (12): 1907–1916.
Verschoyle R D, Steward W P, Gescher A J. 2007. Putative cancer chemopreventive agents of dietary origin-how safe are they? Nutr. Cancer 59 (2): 152–162.
Williams J E, Wagner D G, Walters L E, Horn G W, Waller G R, Sims P L and Guenther J J. 1983. Effect of Production Systems on Performance, Body Compostion and Lipid and Mineral Profiles of Soft Tissue in Cattle. J. Anim Sci. 57: 1020-1028.
Yang J Y, Della-Fera M A, Rayalam S, Ambati S, Hartzell D L, Park H J and Baile C A. 2008. Enhanced inhibition of adipogenesis and induction of apoptosis in 3T3-L1 adipocytes with combinations of resveratrol and quercetin. Life Sci. 82 (1920): 1032–1039.