참고문헌
- Pro Natl Acad Sci USA v.86 Gennetic effects of thymine glycol: site-specific mutagenesis and moelcular modeling studies Basu AK;Loechler EL;Leadon SA;Essignann JM https://doi.org/10.1073/pnas.86.20.7677
- Mol Pharmcol v.38 Stimulation of porphyrinogen oxidation by mercuric ion. I. Evidence of free radical formation in the presence of thiol and hydrogen peroxide Woods JS;Calas CA;Aicher LD;Robinson BH;Mailer C
- Biochem Pharmacol v.41 The inhibition of lipid peroxidation by cinnarizine: possible implications to its therapeutic and side-effects Fernandes AC;Filipe PM;Coelho G;Manso CF https://doi.org/10.1016/0006-2952(91)90070-L
- Chem Pharm Bell v.32 Natural antioxidants. I. Antioxidative components of tea leaf (Thea sinensis L.) Tanizawa H;Toda S;Sazuka Y;Taniyama T;Hayashi T;Arichi S;Takino Y https://doi.org/10.1248/cpb.32.2011
- Korean Ind Hyg Assoc J v.8 Lead levels in blood and urine of a normal male person in Korea Park JA;Choi JS;Lee JW;Lee SK
- Kor J Food Hygiene v.3 Study on the contents of trace elements in foods Baik DW;Kwon WC;Won KP;Kim JH;Kim OH;Sho YS;Kim YJ;Park KS;Seong DK;Seo SC;Lee KJ
- Environ Health Perspect v.42 lead and zinc in growing rats fed corn leaf tissue grown on soil amended with sewage sludge or heave metal salts Miller J;Boswell FC. Cadmium https://doi.org/10.2307/3429209
- Reprod Toxicol v.6 A critical review of low level prenatal lead exposure in the human: Effects on the fetus and newborn Ernhart CB https://doi.org/10.1016/0890-6238(92)90017-N
- Pharmacol Toxicol v.73 Dose dependent transfer of 203lead to milk and tissue uptake in suckling offspring studied in rat and mice Hallen IP;Oskarsson A https://doi.org/10.1111/j.1600-0773.1993.tb01559.x
- Biochem Pharmacol v.34 Activities of several phase I and phase II xenobiotic biotransformation enzymes in cultured hepatocytes from male and female rats Croci T;Williams GM https://doi.org/10.1016/0006-2952(85)90144-3
- Bunseki kagaku v.35 Use of green tea as an adsorbent of several metal ions in water Kimura MH;Hamashita T;Komata J https://doi.org/10.2116/bunsekikagaku.35.4_400
- Bull Eksp Bio Med v.116 The effects of natural polyphenol compounds on the oxidative modification of lowdensity lipoprotein Dushkin MI;Zykov AA;Pivovarava EN
- Planta Med v.50 Studies on the activities of tannins and related compounds: V. Inhibitory effects on lipid peroxidation in mitochondria and microsomes of liver Kimura Y;Okuda H;Okuda T;Hatano T;Agata I;Arichi S https://doi.org/10.1055/s-2007-969776
- Nutr Rev v.54 Japanese green tea as a cancer preventive in humans Fujiki H;Suganuma M;Okabe S;Komori A;Sueoka E;Sueoka N;Kozu T;Sakai Y https://doi.org/10.1111/j.1753-4887.1996.tb03821.x
- J Appl Pharmacol v.4 Protective effect of Carthmus tincotirus L. semen on hepatotoxicity by carbon tetrachloride in rats Jung KH;Jeong CS
- Kor J Pharmcogen v.19 Studies on the general pharmacological activities of Eucommia ulmoides Oliver Hong ND;Rho YS;Kim JW;Won DH;Kim NJ;Cho BS
- J Nutr v.107 Ad Hoc committee on standards for nutritional studies Report of American Institute of nutrition
- J Biol Chem v.193 Protein asurement with folin phenol reagent Lowry OH;Rosebrough NJ;Farr AL;Randall RJ
- J Biochem v.60 no.4 Evidance of biochemically different types of vesicles in the hepatic microsomal fraction Imai T;Ito A;Sato R
- J Biol Chem v.244 The regulation of rat liver xanthine oxidase: Conversion in vitro of the enzyme activity from dehydrogenase (Type D) to oxidase (Type O) Stirpe F;Della CE
- Eur J Biochem v.47 Involvement of the superoxide anion radical in the autooxidation of pyrogallol & a convenient assay for superoxide dismutase Marklund S;Marklund G https://doi.org/10.1111/j.1432-1033.1974.tb03714.x
- Method Enzy v.10 Catalase in vitro Aebi H
- J Lab Clin Med v.70 Studies on the quantitative andqualitative characterization of erythrocytes glutathione peroxidase Paglia ED;Valentine WN
- J Biol Chem v.249 Glutathione S-transferase: the first enzymatic step in mercapturic acid fromatiion Habig WH;Pabist MJ;Jakoby WB
- Biochem J v.112 The effect of age and sex on glutathione peroxidase activities and on aerobic glutathione oxidation in rat liver homogenates Pinto RE;Bartley W
- Eur J Clin Chem Clin Biochem v.35 no.10 Enzymatic determination of unbound D-mannose in serum Pitkanen E;Pikanen O;Uotila L
- J Biol Chem v.239 The carbon monoxide-binding pigment of liver microsomes. I. Evidence for its hemoprotein nature Omura T;Sato R
- J Biol Chem v.239 The carbon monooxide-binding pigment of liver microsomes. II. Solubilization, purification and properties Omura T;Sato, R
- Arch Biochem Biophy v.82 Tissue sulfhydryl group Ellman GL https://doi.org/10.1016/0003-9861(59)90090-6
- Anal Biochem v.95 Assay for lipid peroxides in animal tissues by thiobarbituric acid reaction Ohkawa H;Ohishi N;Yagi K https://doi.org/10.1016/0003-2697(79)90738-3
- Principles and procedures of statistics Steel RGD;Torrie JH
- Bull Environm Contam Toxicol v.23 Effects of dietary lead acetate on hepatic detoxication enzyme activity Wagstaff DJ https://doi.org/10.1007/BF01770037
- Br J Pharmacol v.62 no.4 Hepatic drug metabolism and haem biosynthesis in lead-poisoned rats Goldberg A;Meredith PA;Miller S;Moore MR;Thomson GG https://doi.org/10.1111/j.1476-5381.1978.tb07757.x
- J Biochem v.93 Structural characteristics of cytochrome P-450. Possible location of the heme-binding cysteine in determined amino acid sequences Gotoh O;Tagashira Y;Iizuka T;Fugii-Kuriyama Y https://doi.org/10.1093/jb/93.3.807
- Br J Ind Med v.25 The diagnosis of industrial lead poisoning Gibson SL;Mackenzie JC;Goldberg A
- Carcinogenesis v.7 no.10 Lead nitrate induces certain biochemical properties characteristic of hepatocyte nodules Roomi MW;Columbano A;Ledda-Columbano GM;Sarma DS https://doi.org/10.1093/carcin/7.10.1643
-
Environ Mol Nutagen
v.31
Lead and mercury mutagenesis: role
$H_2O_2$ superoxide dismutase and xanthine oxidase Ariza ME;Bijur GN;Willams MV https://doi.org/10.1002/(SICI)1098-2280(1998)31:4<352::AID-EM8>3.0.CO;2-K - Yakhak Hoeji v.39 Effect of lead ion on the hepatic xanthine oxidase activity in vitro Huh K;Shin US;Lee SH;Ann WH
- Anticancer Res v.17 Inhibition of xanthine oxidase by catechins from tea (Camellia sinensis) Aucamp J;Gaspar A;Hara Y;Apostolides Z
- Xenobiotica v.21 Are free radicals involved in lead poisoning? Hermes-Lima M;Pereira B;Bechara EJ https://doi.org/10.3109/00498259109039548
- Life Science v.68 Catecholamine and nitric oxide systems as targets of chronic lead exposure in inducing selective functional impairement Carmignani M;Volpe AR;Boscolo P;Quao N;Gioacchino MD;Grilli A;Felaco M https://doi.org/10.1016/S0024-3205(00)00954-1
- Neurotoxicol v.10 Effect of lead acetate on cerebral glutathione peroxidase and catalase during chronic exposure in suckling rats Valenzuela A;Lefaucinnier JC;Bourre JM
- Pharmacol Toxicol v.74 Lipoperoxidative damage on lead exposure in rat brain and its implications on membrane bound enzymes Sandhir R;Julka D;Kiran DG https://doi.org/10.1111/j.1600-0773.1994.tb01077.x
- Biochem Pharmcol v.29 Liver xanthine oxidase increase in mice in three pathological models: a possible defence mechanism Tubaro E;Lotti B;Cavallo G;Croce C;Borelli G https://doi.org/10.1016/0006-2952(80)90107-0
- Toxicol v.128 Effects of lead on rat kidney and liver: GST expression and oxidative stress Daggett DA;Oberley TD;Nelson SA;Wright LS;Kornguth SE;Siegel FL https://doi.org/10.1016/S0300-483X(98)00080-8
- Toxicol Lett v.56 Decreased glutathions S-transferse activity in mice lovers by acute treatment with lead, independent of alteration in glutathione content Nakagawa K https://doi.org/10.1016/0378-4274(91)90085-K
- Gastroenterology v.74 Factors affecting the absorption and excretion of lead in the rats Conard ME;Barton JC
- Korean J Nutr v.22 Metabolic change in growing rats fed diets with different level of lead and lipid Kim JS;Kim MK
- Toxicol Appl Pharm v.142 Lead cytokine-mediated oxidative DNA damage in cultured mouse hepatocyes Sieg DJ;Billings RE https://doi.org/10.1006/taap.1996.8033