| 参考文献 |
Fukami, J.I., et al. Science 155, 713, (1967)
Kuznetsov, A.V., et al., Analysis of mitochondrial function in situ in permeabilized muscle fibers, tissues and cells. Nat. Protoc. 3, 965-76, (2008)
Verma, R., and Nehru, B., Effect of centrophenoxine against rotenone-induced oxidative stress in an animal model of Parkinson's disease. Neurochem. Int. 55, 369-75, (2009)
Qian, W., and Van Houten, B., Alterations in bioenergetics due to changes in mitochondrial DNA copy number. Methods , (2010)
Shaham, O., et al., A plasma signature of human mitochondrial disease revealed through metabolic profiling of spent media from cultured muscle cells Proc. Natl. Acad. Sci. U. S. A. 107, 1571-5, (2010)
Rey, B., et al., Up-regulation of avian uncoupling protein in cold-acclimated and hyperthyroid ducklings prevents reactive oxygen species production by skeletal muscle mitochondria. BMC Physiol. 10, 5, (2010)
Serviddio, G., and Sastre, J., Measurement Of Mitochondrial Membrane Potential And Proton Leak. Methods Mol. Biol. 594, 107-21, (2010)
Qian, W., and Van Houten, B., Alterations In Bioenergetics Due To Changes In Mitochondrial DNA Copy Number. Methods 51, 452-7, (2010)
Caboni, P., et al., Rotenone, deguelin, their metabolites, and the rat model of Parkinson's disease Chem. Res. Toxicol. 17, 1540-1548, (2004)
Uversky, V.N., Neurotoxicant-induced animal models of Parkinson's disease: understanding the role of rotenone, maneb and paraquat in neurodegeneration Cell Tissue Res. 318, 225-241, (2004)
Merck 14,8271
Beil. 19,II,438
Aldrich MSDS 1, 1592:A / Corp MSDS 1 (2), 3055:C / FT-IR 1 (2), 99:A / FT-NMR 1 (2), 923:A / IR-Spectra (3), 907:G / IR-Spectra (2), 794:D / NMR-Reference 2 (2), 99:C / RegBook 1 (2), 1701:B / Sax 6, 2373 / Sigma FT-IR 1 (2), 884:B / Structure Index 1, 270:D:6
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