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Copper chloride Vitamin

A variety of other metals and their complexes have been studied for radioprotective activity. Among these are copper glycinate, strontium chloride, ZnNa -diethylenetriaminepentaacetate (ZnDTPA), and selenium, which has been studied because of its relationship to endogenous antioxidant mechanisms, especiaHy GSH peroxidase and vitamin E. [Pg.491]

Vitamin E compounds can be detected (about 20 /tg) as dark spots in UV light. They appear violet and detection is appreciably more sensitive (0.02 /tg) on layers that contain 0.02% Na-fluorescein. Moreover, these are visible in daylight as reddish spots (limit of detection 2 fig). The same effect is produced by spraying with fluorescein or dichlorofluorescein reagent. Nonspecific visualization procedures for tocopherols and tocotrienols are based on spraying with sulfuric acid, molybdophosphoric add, antimony(V) chloride, dipyridyl-iron reagent, nitric add, and copper(II) sulfate-phosphoric add [1-4]. [Pg.948]

Typical of the methods available for the preparation of 7t-allylpalladium complexes is the preparation of the crystalline compound 70 by heating prenyl acetate 71 in acetic acid with PdCl2 in the presence of copper(II) chloride, followed by chromatographic purification. Alkylation of 70 with the anion derived from the Ci5-sulphone 72 is then carried out in DMF in the presence of at least four equivalents of triphenylphosphine (two per Pd) and gives the crystalline C2o-sulphone 73 from which vitamin A may be obtained by ethoxide-catalysed elimination of phenylsulphinic acid [40] (Scheme 16). Despite the moderate yield (52%) in the alkylation step and the use of stoichiometric amounts of palladium, this synthesis of vitamin A (7) avoids the lengthy functionalization process that is often necessary with more conventional methods of carbon-carbon bond formation. [Pg.65]

Sources Dietary Reference Intakes for Calcium, Phosphorous, Magnesium, Vitamin D, and Fluoride (1997) Dietary Reference Intakes for Thiamin, Riboflavin, Niacin, Vitamin B6, Folate, Vitamin B12, Pantothenic Acid, Biotin, and Choline (1998) Dietary Reference Intakes for Vitamin C, Vitamin E, Selenium, and Carotenoids (2000) Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc (2001) Dietary Reference Intakes for Water, Potassium, Sodium, Chloride, and Sulfate (2005) and Dietary Reference Intakes for Calcium and Vitamin D (2011). These reports may be accessed via www.nap.edu... [Pg.345]

Sources Dietary Reference Intakes for Calcium, Phosphorous, Magnesium, Vitamin D, and Huoride (1997) Dietary Reference Intakes for Thiamin, Riboflavin, Niacin, Vitamin 85, Folate, Vitamin B12, Pantothenic Acid, Biotin, and Choline (1998) EHetary Reference Intakes for Vitamin C, Vitamin E, Selenium, and Carotenoids (2000) Dietary Reference Intakes for Vitamin A, Vitamin K, Arsenic, Boron, Chromium, Copper, Iodine, Iron, Manganese, Molybdenum, Nickel, Silicon, Vanadium, and Zinc (2001) Dietary Reference Intakes for Water, Potassium, Sodium, Chloride, and Sulfate (2005) and EHetary Reference Intakes for Calcium and Vitamin D (2011). These reports may be accessed via www.nap.edu A Tolerable Upper Intake Level (UL) is the highest level of daily nutrient intake that is likely to pose no risk of adverse health effects to almost all individuals in the general population. Unless otherwise specified, the UL represents total intake from food, water, and supplements. Due to a lack of suitable data, ULs could not be established for vitamin K, thiamin, riboflavin, vitamin B12, pantothenic acid, biotin, and carotenoids. In the absence of a UL, extra caution may be warranted in consuming levels above recommended intakes. Members of the general population should be advised not to routinely exceed the UL. The UL is not meant to ply to individuals who are treated with the nutrient under medical supervision or to individuals with predisposing conditions that modify their sensitivity to the nutrient... [Pg.356]

Lee-Chen SF, Yu CT, Jan KY (1992) Effect of arsenite on the DNA repair of UV-irradiated Chinese hamster ovary cells. Mutagenesis 7 51-55 Li Y, Togashi Y, Sato S, Emoto T, Kang J-H, Takeichi N, Kobayshi H, Kojima Y, Une Y, Uchino J (1991) Abnormal copper accumulation in non-cancerous and cancerous liver tissues of LEC rats developing hereditary hepatitis and spontaneous hepatoma. Jpn J Cancer Res 82 490-492 Lin XH, Sugiyama M, Costa M (1991) Differences in the effect of vitamin E on nickel sulfide or nickel chloride-induced chromosomal aberrations in mammalian cells. Mutat Res 260 159-164... [Pg.368]


See other pages where Copper chloride Vitamin is mentioned: [Pg.535]    [Pg.535]    [Pg.69]    [Pg.764]    [Pg.373]    [Pg.379]    [Pg.1837]    [Pg.36]    [Pg.26]    [Pg.231]    [Pg.1031]    [Pg.538]    [Pg.90]    [Pg.705]    [Pg.240]    [Pg.347]    [Pg.1394]    [Pg.2418]    [Pg.282]    [Pg.240]    [Pg.385]    [Pg.1070]    [Pg.639]    [Pg.372]    [Pg.1070]    [Pg.711]    [Pg.255]   


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Copper chloride

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