[1] Hwang C,Sinskey A J,Lodish H F.Oxidized redox state of glutathione in the endoplasmic reticulum[J]. Science, 1992, 257(5076):1496.
[2] Dalton T P, Shertzer H G,Puga A. Regulation of gene expression by reactiveoxygen[J]. Annual Review of Pharmacology and Toxicology, 1999, 39: 67.
[3] Meister A. Glutathione metabolism and its selective modification[J]. The Journal of Biological Chemistry,1988, 263(33): 17205.
[4] Akerboom T P, Bilzer M,Sies H.The relationship of biliary glutathione disulfide efflux and intracellular glutathione disulfide content in perfused rat liver[J]. The Journal of Biological Chemistry, 1982, 257(8): 4248.
[5] Lu S C. Regulation of glutathione synthesis[J]. Molecular Aspects of Medicine, 2009, 30(1-2): 42.
[6] Niu L Y, Guan Y S, Chen Y Z, Wu L Z, Tung C H, Yang Q Z. BODIPY-based ratiometricfluorescent sensor for highly selective detection of glutathione over cysteine and homocysteine[J]. Journal of the American Chemical Society, 2012, 134(46):18928.
[7] Wang F, Guo Z, Li X, Li X, Zhao C. Development of a small molecule probe capable ofdiscriminating cysteine, homocysteine, and glutathione withthree distinct turn-on fluorescent outputs[J]. Chemistry-An European Journal, 2014, 20(36), 11471.
[8] Wang F, An J, Zhang L, Zhao C. Construction of a fluorescence turn-on probe for highly discriminating detection of cysteine[J]. RSC Advances, 2014, 4: 53437.
[9] Wang F, Zhou L, Zhao C, Wang R, Fei Q, Luo S, Guo Z, Tian H, Zhu W H. A dual-response BODIPY-based fluorescent probe for the discrimination of glutathione from cysteine and homocysteine[J]. Chemical Science, 2015, 6: 2584.
[10] Jung H, Ko K, Kim G, Lee A, Na Y, Kang C, Lee J, Kim J. Coumarin-based thiolchemosensor: synthesis, turn-on mechanism, and its biological application[J]. Organic Letters, 2011, 13(6): 1498.
[11] Lim C, Masanta G, Kim H, Han J, Kim H, Cho B.Ratiometricdetection of mitochondrial thiols with a two-photon fluorescent probe[J]. Journal of the American Chemical Society, 2011, 133(29): 11132.
[12] Zhao C, Li X, Wang F. Target-triggered NIR emission with a large stokes shift for the detection and imaging of cysteine in living cells[J]. Chemistry-An Asian Journal, 2014, 9(7): 1777.
[13] Zhao C, Zhang Y, Feng P, Cao J. Development of a borondipyrromethene-based Zn2+ fluorescent probe: solvent effects on modulation sensing ability[J]. Dalton Transactions, 2012, 41: 831. |