dc.relation.reference | 參 考 文 獻
王有忠。1989。食品安全。pp.199-203。華香園。台北。
王若琦。蛋白質體與二維電泳之簡介。食品工業 36(1):14-23.
孟慶寧。1999。以模式系統探討雜環胺化合物的生成與安定性。輔仁大學食品營養學系碩士論文。
莊榮輝、楊健志、陳翰明、吳裕仁、楊光華、蔡雨靜。2000。蛋白質體學實驗A。國立台灣大學農業化學系生物化學實驗室。
徐涵怡。2004。油炸薯條之油煙雜環胺含量測定。輔仁大學食品營養學系碩士論。
陳仁焜、凌永健。2003。質譜術在後基因體時代的應用。食品工業35(2):10-21。
曾致勳。2002。以蛋白質體學分析中草藥萃取物處理的人類肝癌細胞。國立台灣大學食品科技研究所碩士論文。
黃竹君。以蛋白質體學探討柳松菇蛋白質萃取物處理的人類白血病細胞株 U937。國立台灣大學食品科技研究所碩士論文。
黃麗娜。2004。蛋白質體學之研究及應用。食品工業 36(1):3-13.
藍清木。2001。不同食品成分和加熱時間對滷味雜環胺生成的影響。輔仁大學食品營養學系碩士論文。
Aeschbacher HU, Turesky RJ. 1991. Mammalian cell mutagenicity and metabolism of heterocyclic aromatic amines. Mutat Res 259(3):235–250.
Aebersold R, Goodlent DR. 2001. Mass spectrometry in proteomics. Chem Rev 101(2):269-296.
Albala JS, Franke K, McConnell IR, Pak KL, Folta PA, Karlak B, Rubinfeld B, Davies AH, Lennon GG, Clark R. 2001. From genes to proteins: high-throughput expression and purification of the human proteome. J Cell Biochem 80(2):187-191
Banks RE, Dunn MJ, Hochstrasser DF, Sanchez JC, Blackstock W, Pappin DJ, Selby PJ. 2000. Proteomics: new perspectives, new biomedical opportunities. Lancet 356(9243):1749-1756.
Beavis RC, Fenyo D. 2000. Database searching with mass spectrometric information. A Trend Guide 2000(7):22-27.
Bjeldanes LF, Morris MM, Timourian H, Hatch FT. 1983. Effects of meat composition and cooking conditions on mutagen formation in fried ground beef. J Agric Food Chem 31(1):18-21.
Blackstock W. 2000. Trends in automation and mass spectrometry for proteomics. A Trends Guide 2000(7):12-17.
Blackstock WP, Weir MP. 1999. Proteomics: quantitative and physical mapping of cellular protein . Trend Biotechnol 17(3):121-127.
Bosch FX, Ribes J, Borras J. 1999. Epidemiology of primary liver cancer. Semin Liver Dis 19(5): 271-285.
Bradford MM. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem 72(1-2):248-254.
Brooks RA, Gooderham NJ, Zhao K, Edwards RJ, Howard LA, Boobis AR, Winton DJ. 1994. 2-Amino-1-methyl-6-phenylimidazo[4,5-b]
pyridine ( PhIP ) is a potent mutagen in the mouse small intestine. Cancer Res 54(7):1665–1671.
Chalmers M, Gaskell SJ. 2000. Advances in mass spectrometry for proteome analysis. Curr Opin Biotechnol 11(4):384-390.
Chen C. 1988. Factors influencing mutagen formation during frying of ground beef. Ph.D. thesis, Michigan State University.
Chen CJ, Yu MH, Liaw YF. 1997. Epidemiologicalcharacteristics and risk factors of hepatocellular carcinoma. J Gastroenterol Hepatol 12(Suppl):S294-S300.
Chen BH, Chiu CP. 1998. Analysis, formation and inhibition of heterocyclic amines in food: an overview. J Food Drug Anal 6(4):625-636.
Chu PW, Yap MN, Wu CY, Huang CM, Pan FM, Tseng MJ, Chen ST. 2000. A proteomic analysis of secreted proteins from xylan-induced Bacillus sp. Strain K-1. Electrophoresis 21(9):1740-1745.
Clauser KR, Baker P, Burlingame AL. 1999. Role of accurate mass measurement ( 10 ppm ) in protein identification strategies employing MS or MS/MS and database searching. Anal Chem 71(14):2871-2882.
Crawford ME, Cusick ME, Garrels JI. 2000. Databases and knowledge resources for proteomics research. A Trends Guide 2000(7):17-21.
Felton JS, Knize MG. 1991. Occurrence, identification and bacterial mutagenicity of heterocyclic amines in cooked food. Mutat Res 259(2):205–217.
Felton JS, Knize MG, Roper M, Fultz E, Shen NH, Turteltaub KW. 1992. Chemical analysis, prevention and low-level dosimetry of heterocyclic amines from cooked food. Cancer Res 52(7):2103-2107.
Fey SJ, Larsen PM. 2001. 2D or not 2D. Current Opinion in Chemical Biology. 5(1):26-33.
Gevaert K, Vandekerckhove J. 2000. Protein identification methods in proteomics. Electrophoresis 21(6):1145-1154.
Gorg A. 2000. Adavances in 2D gel techniques. Proteomics : A Trends Guide:3-6.
Graves PR, Haystead TA. 2002. Molecular biologist’s guide to proteomics. Microbiol Mol Biol Rev 66(1):39–63.
Gygi SP, Aebersold R. 2000. Mass spectrometry and proteomics. Curr Opin Chem Biol 4(5):489-494.
Ha MK, Chung KY, Bang D, Park YK, Lee KH. 2004. Proteomic analysis of the proteins expressed by hydrogen peroxide treated cultured human dermal microvascular endothelial cells. Proteomics 5(6):1507-1519.
Harry JL, Wilkins MR, Herbert BR, Packer NH, Gooley AA, Williams KL. 2000. Proteomics: capacity versus utility. Electrophoresis 21(6):1071-1081.
He QY, Chiu JF. 2003. Proteomics in biomarker discovery and drug development. J Cell Biochem 89(5):868–886.
Herbert B. 1999. Advances in protein solubilisation for two-dimensional electrophoresis. Electrophoresis 20(4-5):660-663.
Holtz E, Skjoldebrand C, Jägerstad M, Reutersward AL, Isberg PE. 1985. Effect of recipes on crust formation and mutagenicity in meat products during baking. J Food Technol 20:57-66.
Huang CM, Shui HA, Wu YT, Chu PW, Lin KG, Kao LS, Chen ST. 2001. Proteomic analysis of protein in PC12 cells before and after treatment with nerve growth factor: increased levels of 43 kDa chromogranin B-derived fragment during neuronal differentiation. Molecular Brain Res 92(1-2):181-192.
Hümmerich J, Zohm C, Pfau W. 2004. Modulation of cytochrome P450 1A1 by food-derived heterocyclic aromatic amines. Toxicology 199(2-3):221-240
Jägerstad M, Laser Reutersward A, Olsson R, Grivas S, Nyhammer T, Olesson K, Dahlqvist A. 1983. Creatin(in)e and maillard reaction products as precursors of mutagenic compounds : effects of various amino acids. Food Chem(12):255-264.
Jägerstad M, Skog K, Grivas S, Olsson K. 1991. Formation of heterocyclic amines using model systems. Mutat Res 259 (3-4):219-223.
Johansson MAE, Jägerstad M. 1994. Occurrence of mutagenic/ carcinogenic heterocyclic amines in meat and fish product, including pan residues, prepared under domestic condition. Carcinogenesis 15(8):1511-1518.
Johansson MAE, Fay LB, Gross GA, Olsson K, Jäsgerstad M. 1995. Influence of amino acids on the formation of mutagenic / carcinogenic heterocyclic amines in a model system. Carcinogenesis 16 (10):2553-2560.
Johansson MAE, Jägerstad M. 1996. Influence of pro- and antioxidants on the formation of mutagenic-carcinogenic heterocyclic amines in a model system. Food Chem 56(1):69-75.
Klose J. 1975. Protein mapping by combined isoelectric focusing and electrophoresis in mouse tissues: a novel approach to testing for induced point mutations in mammals. Humangenetik 26(2):211-243.
Knasmüller S, Parzefall W, Sanyal R, Ecker S, Schwab C, Uhl M, Mersch-Sundermann V, Williamson G, Hietsch G, Langer T, Darroudi F, Natarajan AT. 1998. Use of metabolically competent human hepatoma cells for the detection of mutagens and antimutagens. Mutat Res 402(1-2):185-202.
Knize MG, Andresen BD, Healy SK, Shen NH, Lewis PR, Bjeldanes LF, Hatch FT, Felton JS. 1985. Effects of temperature, patty thickness and fat content on the production of mutagens in fried ground beef. Food Chem Toxic 23(12):1035-1040.
Knize MG, Dolbeare FA, Carroll KL, Moore DH, Felton JS. 1994. Effect of cooking time and temperature on the heterocyclic amine content of fried beef patties. Food Chem Toxic 32 (7):595-603.
Layton DW, Bogen KT, Knize MG, Hatch FT, Johnson VM, Felton JS. 1995. Cancer risk of heterocyclic amines in cooked foods: an analysis and implications for research. Carcinogenesis 16(1):39-52.
Lehr S, Kotzka J, Knebe B, Schiller M, Krone W, Muller-Wiwland D. 2002. Primary skin fibroblasts as human model system for proteome analysis. Proteomics 2(3):280-287.
Lopez MF, Berggren K, Chenronkalaskays E, Lazarev A, Robinson M, Patton WF. 2000. A comparison of silver stain and SYPRO Ruby protein gel stain with respect to protein detection in two-dimensional gels and identification by peptide mass profiling. Electrophoresis 21(17):3673-3683
Maines MD, Costa LG, Reed DJ, Sassa S, Sipes IG. 1999. Current protocol in toxicology. John Wily & Sons, New York.
Mann M, Pandey A. 2001. Use of mass spectrometry-derived data to annotate nucleotide and protein sequence databases. Trends Biochem Sci 26(1):54-61.
Monribot-Espagne C, Boucherie H. 2002. Differential gel exposure, a new methodology for the two-dimensional comparison of protein samples. Proteomics 2(3):229-240.
Nagao M, Honda M, Seino Y, Yahagi T, Kawachi T, Sugimura T. 1977. Mutagenicities of protein pyrolysates. Cancer Letters (2):335-340.
Nagao M, Fujita K, Wakabayashi K, Sugimura T. 1983. Ultimate forms of mutagenic and carcinogenic heterocyclic amines produced by pyrolysis. Biochem Biophys Res Commun 114(2):626-631.
O’Farrell PH. 1975. High resolution two-dimensional electrophoresis of proteins. J Biol Chem 250(10):4007-4021.
Oguri A, Suda M, Totsuka Y, Sugimura T, Wakabayashi K. 1998. Inhibitory effects of antioxidation on formation of heterocyclic amines. Mutat Res 402(1-2):237-245.
Ohgaki H, Takayama S, Sugimura T. 1991. Carcinogenicities of heterocyclic amines in cooked food. Mutat Res 259(3-4):399-410.
Okonogi H, Ushijima T, Zhang XB . 1997. Agreement of mutational characteristics of heterocyclic amines in lacI of the Big Blue mouse with those in tumor related genes in rodents. Carcinogenesis 18(4):745–748.
Övervik E, Kleman M, Berg I, Gustafsson J-Å. 1989. Influence of creatine, amino acids and water on the formation of mutagenic heterocyclic amines found in cooked meat. Carcinogenesis 10(12): 2293-2301.
Pandey A, Mann M. 2000. Proteomics to study genes and genomes. Nature 405(15):837-846.
Pfau W, Schulze C, Shirai T, Hasegawa R, Brockstedt U. 1997. Identification of the major hepatic DNA adduct formed by the food mutagen 2-amino-9H-pyrido [2,3-b] indole (AαC). Chem Res Toxicol 10(10):1192–1197.
Pfau W, Martin FL, Cole KJ, Venitt S, Philips DH, Grover PH, Marquardt H. 1999. Heterocyclic aromatic amines induce DNA strand breaks and cell transformation. Carcinogenesis 20(4):545-551.
Powrie W, Wc C, Rosin M, Stich H. 1981. Clastogenic and mutagenic activities of Maillard reaction model systems. J Food Sci 46:1433-1438.
Rabilloud T, Charmont S. 2000. Detection of proteins on two-dimensional gels. In proteome research: two-dimensional gel electrophoresis and identification methods:107-126.
Sanyal R, Darroudi F, Parzefall W, Nagao M, Knasmüller S. 1997. Inhibition of the genotoxic effects of heterocyclic amines in human derived hepatoma cells by dietary bioantimutagens. Mutagenesis 12(4):297-303.
Siegfried K, Christina ES, Susan JL, Ching YW, Ratna S, Michael K, Wolfram P, Firouz D. 1999. Genotoxic effects of heterocyclic aromatic amines in human derived hepatoma ( HepG2 ) cells. Mutagenesis 14(6):533–539.
Skog K, Jagerstad M. 1990. Effect of monosaccharides and disaccharides on the formation of food mutagens in model systems. Mutat Res 230(3):263-272.
Skog K, Steineck G, Augustsson K, Jägerstad M. 1995. Effect of cooking on the formation of heterocyclic amines in fried meat products and pan residues. Carcinogenesis 16(4)861-867.
Skog K, Solyakov A, Jägerstad M. 2000. Effect of heating conditions and additives on the formation of heterocyclic amines with reference to amino-carbolines in a meat juice model system. Food Chem 68(3):299-308.
Snyderwine EG, Schut HAJ, Adamson RH, Thorgeirsson UP, Thorgeirsson SS. 1992. Metabolic activation and genotoxicity of heterocyclic amines. Cancer Res 52(7):2099-2102.
Snyderwine EG. 1994. Some perspectives on the nutritional aspects of breast cancer research. Food derived heterocyclic amines as etiologic agents in human mammary cancer. Cancer 74(6): 1070–1077.
Sugimura T, Sato S. 1983. Mutagens-carcinogens in foods. Cancer Res 43(5):2415-2421.
Sugimura T, Wakabayashi K. 1990. Mutagens and carcinogens in food. In: M.W. Pariza, H.U. Aeschbacher, J.S. Felton and S. Sato (Eds), Mutagens and Carcinogens in the Diet, Wiley-Liss, Inc., New York, pp. 1-18.
Sugimura T. 2002. Food and cancer. Toxicology 181-182(1):17-21.
Thierry R. 2000. Detecting protein separated by 2-D gel electrogphoresis. Anal Chem 1(1):48A-55A.
Thompson L, Wu RW, Felton JS. 1995. Genetically modified Chinese hamster ovary (CHO) cells for studying the genotoxicity of heterocyclic amines from cooked foods. Toxicol Lett 82–83:883–889.
Tonge R, Shaw J, Middleton B, Rowlinson R, Rayner S, Young J, Pognan, F, Hawkins E, Currie I, Davison M. 2001. Validation and development of fluorescence two-dimensional differential gel electrophoresis proteomics technology. Proteomics 1(3):377-396.
Trisiriroj A, Jeyachok N, Chen ST. 2004. Proteomics characterization of different branproteins between aromatic and nonaromatic rice (Oryza sativa L. ssp. indica). Proteomics 4(7):2047–2057.
Wakabayashi K, Nagao M, Esumi H, Sugimura T. 1992. Food-derived mutagens and carcinogens. Cancer Res 52(7):2092-2098.
Wasinger VC, Cordwell SJ, Cerpa-Poljak A, Yan JX, Gooley AA, Wilkins MR, Duncan MW, Harris R, Williams KL, Humphery-Smith I. 1995. Progress with gene-product mapping of the Mollicutes: Mycoplasma genitalium. Electrophoresis 16(1):1090–1094.
Wenzel U, Herzog A, Kuntz S, Daniel H. 2004. Protein expression profiling identifies molecular targets of quercetin as a major dietary flavonoid in human colon cancer cells. Proteomics 4(7):2160-2174.
Wilkins MR, Sanchez JC, Gooley AA, Appel RD, Humphery-Smith I, Hochstrasser DF, Williams KL. 1995. Progress with proteome projects: Why all proteins expressed by a genome should be identified and how to do it. Biotechnol Genet Eng Rev 13(1):19–50.
Winton DJ, Gooderham NJ, Boobis AR, Davies DS, Ponder BAJ. 1990. Mutagenesis of mouse intestine in vivo using the Dbl-1 specific locus test. Cancer Res 50(24):7992–7996.
Odaa Y, Aryal P, Terashita T, Gillam EMJ, Guengerich FP, Shimada T. 2001. Metabolic activation of heterocyclic amines and other procarcinogens in Salmonella typhimurium umu tester strains expressing human cytochrome P4501A1, 1A2, 1B1, 2C9, 2D6, 2E1, and 3A4 and human NADPH-P450 reductase and bacterial O-acetyltransferase. Mutat Res 492(1-2):81-90.
Zhang XB, Felton JS, Tucker JD, Urlando C, Heddle JA. 1996. Intestinal mutagenicity of two carcinogenic food mutagens in transgenic mice:2-amino-1-methyl-6-phenylimidazo[4,5-b] pyridine and amino (a) -carboline. Carcinogenesis 17(10):2259–2265. | zh_TW |