REFERENCES
- Amarnath , K. , V. Amarnath , H. L. Valentine , and W. M. Valentine . 2003 . A specific HPLC-UV method for the determination of cysteine and related aminothiols in biological samples . Talanta 60 ( 6 ): 1229 – 1238 .
- Camera , E. , and M. Picardo . 2002 . Analytical methods to investigate glutathione and related compounds in biological and pathological processes . J. Chromatogr. B 781 ( 1–2 ): 181 – 206 .
- Chassaing , C. , J. Gonin , C. S. Wilcox , and I. W. Wainer . 1999 . Determination of reduced and oxidized homocysteine and related thiols in plasma by thiol-specific pre-column derivatization and capillary electrophoresis with laser-induced fluorescence detection . J. Chromatogr. B 735 ( 2 ): 219 – 227 .
- Digga , A. , S. Gracheva , C. Livingstone , and J. Davis . 2003 . Potentiometric detection of thiols: a mechanistic evaluation of quinone-thiol interactions . Electrochem. Comm. 5 ( 8 ): 732 – 736 .
- Droge , W. , and E. Holm . 1997 . Role of cysteine and glutathione in HIV infection and other diseases associated with muscle wasting and immunological dysfunction . FASEB J. 11 ( 13 ): 1077 .
- Ducros , V. , K. Demuth , M. P. Sauvant , M. Quillard , E. Caussé , M. Candito , M. H. Read , J. Drai , I. Garcia , and M. F. Gerhardt . 2002 . Methods for homocysteine analysis and biological relevance of the results . J. Chromatogr. B 781 ( 1–2 ): 207 – 226 .
- Garcia , M. S. , C. Sanchez-Pedreño , and M. I. Albero . 1990 . Inhibition of the palladium-catalysed reaction between cobalt (III)-ethylenediaminetetraacetate and hypophosphite. Kinetic determination of cysteine, N-acetylcysteine and cystine . Analyst 115 ( 7 ): 989 – 992 .
- Goodman , M. T. , K. McDuffie , B. Hernandez , L. R. Wilkens , and J. Selhub . 2000 . Case‐control study of plasma folate, homocysteine, vitamin B12, and cysteine as markers of cervical dysplasia . Cancer 89 ( 2 ): 376 – 382 .
- Hignett , G. , S. Threlfell , A. J. Wain , N. S. Lawrence , S. J. Wilkins , J. Davis , R. G. Compton , and M. F. Cardosi . 2001 . Electroanalytical exploitation of quinone–thiol interactions: application to the selective determination of cysteine . Analyst 126 ( 3 ): 353 – 357 .
- Jianguo , W. , L. Hui , S. Qiaohua , L. Rongzhi , Z. Yan , Z. Jian , L. Min , and J. Xiang . 2009 . Method of electrochemical determination of glutathione . Acta Chim. Sinica 67 ( 5 ): 415 – 419 .
- Karabinas , P. , and D. Jannakoudakis . 1984 . Kinetic parameters and mechanism of the electrochemical oxidation of L-ascorbic acid on platinum electrodes in acid solutions . J. Electroanal. Chem. Interfacial Electrochem. 160 ( 1–2 ): 159 – 167 .
- Kleinman , W. A. 2000 . Status of glutathione and other thiols and disulfides in human plasma . Biochem. Pharmacol. 60 ( 1 ): 19 – 29 .
- Lang , C. A. , B. J. Mills , W. Mastropaolo , and M. C. Liu . 2000 . Blood glutathione decreases in chronic diseases . J. Lab. Clin. Med. 135 ( 5 ): 402 – 405 .
- Lawrence , N. S. , J. Davis , and R. G. Compton . 2001 . Electrochemical detection of thiols in biological media . Talanta 53 ( 5 ): 1089 – 1094 .
- Lawrence , N. S. , J. Davis , L. Jiang , T. G. J. Jones , S. N. Davis , and R. G. Compton . 2000 . Selective determination of thiols: a novel electroanalytical approach . Analyst 125 ( 4 ): 661 – 663 .
- Lawrence , N. S. , R. P. Deo , and J. Wang . 2004 . Detection of homocysteine at carbon nanotube paste electrodes . Talanta 63 ( 2 ): 443 – 449 .
- Mao , L. , and K. Yamamoto . 2000 . Amperometric Biosensor for glutathione based on osmium‐polyvinylpyridine gel polymer and glutathione sulfhydryl oxidase . Electroanalysis 12 ( 8 ): 577 – 582 .
- Nekrassova , O. , N. S. Lawrence , and R. G. Compton . 2003 . Analytical determination of homocysteine: a review . Talanta 60 ( 6 ): 1085 – 1095 .
- Perez , E. F. , L. T. Kubota , A. A. Tanaka , and G. De Oliveira Neto . 1998 . Anodic oxidation of cysteine catalysed by nickel tetrasulphonated phthalocyanine immobilized on silica gel modified with titanium (IV) oxide . Electrochim. Acta 43 ( 12–13 ): 1665 – 1673 .
- Ruiz , J. J. , A. Aldaz , and M. Dominguez . 1977. Mechanism of L-ascorbic acid oxidation and dehydro-L-ascorbic acid reduction on a mercury electrode. I. Acid medium. Canadian J. Chem. 55(15): 2799–2806.
- Shahrokhian , S. , and S. Bozorgzadeh . 2006 . Electrochemical oxidation of dopamine in the presence of sulfhydryl compounds: Application to the square-wave voltammetric detection of penicillamine and cysteine . Electrochimica Acta 51 ( 20 ): 4271 – 4276 .
- Sigit , J. I. , M. Hages , K. A. Brensing , U. Frotscher , K. Pietrzik , K. Bergmann , and D. Lütjohann . 2001 . Total plasma homocysteine and related amino acids in end-stage renal disease (ESRD) patients measured by gas chromatography-mass spectrometry–comparison with the Abbott IMx homocysteine assay and the HPLC method . Clin. Chem. Lab. Med. 39 ( 8 ): 681 – 690 .
- Tutem , E. , and R. Apak . 1991 . Simultaneous spectrophotometric determination of cystine and cysteine in amino acid mixtures using copper (II)--neocuproin reagent . Anal. Chim. acta 255 ( 1 ): 121 – 125 .
- White , P. C. , N. S. Lawrence , J. Davis , and R. G. Compton . 2001 . Electrochemically initiated 1, 4 additions: a versatile route to the determination of thiols . Anal. Chim. Acta 447 ( 1–2 ): 1 – 10 .
- White , P. C. , N. S. Lawrence , Y. C. Tsai , J. Davis , and R. G. Compton . 2001 . Electrochemically driven derivatisation-detection of cysteine . Microchim. Acta 137 ( 1 ): 87 – 91 .