71899-86-0Relevant articles and documents
5-(2-Aminoethyl)dithio-2-nitrobenzoate as a more base-stable alternative to ellman's reagent
Zhu, Jinge,Dhimitruka, Ilirian,Pei, Dehua
, p. 3809 - 3812 (2007/10/03)
(Chemical Equation Presented) 5-(2-Aminoethyl)dithio-2-nitrobenzoate (ADNB) reacts with free thiols with kinetics similar to those of Ellman's reagent but has dramatically improved stability under alkaline conditions, making it an excellent alternative to Ellman's reagent for the quantitation of thiol contents and enzymatic assays under basic pH conditions.
General chemical ligation
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, (2008/06/13)
Disclosed herein is a process whereby oligopeptides are ligated to form ligation peptide products. In the first step, two starting oligopeptides are ligated to form an intermediate having an amino-thioester linkage. In the second step, the aminothioester
A kinetic approach to characterize the electrostatic environments of thiol groups in proteins
Zhang, Hao,Le, Min,Means, Gary E.
, p. 356 - 364 (2007/10/03)
In this study, we synthesized a zwitterionic DTNB derivative, 5-(2- aminoethyl)-dithio-2-nitrobenzoate (ADNB), and characterized its reactions with several cationic, anionic, and neutral thiols. Reactions with ADNB, unlike those with DTNB, are relatively insensitive to electrostatic environments and ionic strengths. At relatively low ionic strength, rate ratios, k(ADNB)/k(DTNB), varied from 0.22 for reactions with low-molecular- weight cationic thiols to 3.0 for those with low-molecular-weight anionic thiols. A k(ADNB)/k(DTNB) ratio of ~200 for Cys-34 of BSA appears to reflect a very anionic environment. k(ADNB)/k(DTNB) ratios of ~6 and ~1, respectively, for canine and equine serum albumins, which have Glu-82 → Asp and Glu-82 → Ala substitutions suggest Glu-82 is the most important anionic residues affecting the reactivity of Cys-34 in BSA. k(ADNB)/k(DTNB) ratios appear to be useful for characterizing electrostatic environments of thiol groups in proteins.
Extending the applicability of native chemical ligation
Canne, Lynne E.,Bark, Steven J.,Kent, Stephen B. H.
, p. 5891 - 5896 (2007/10/03)
A more general approach to native (amide-forming) chemical ligation of unprotected peptide segments is described that extends the technique beyond the previously reported X-Cys ligation site to now include X-Gly and Gly-X ligation sites. A peptide, [pepti
A KINETIC STUDY OF THE THIOL-DISULFIDE EXCHANGE REACTION BETWEEN AMINOTHIOLS AND 5,5'-DITHIOBIS(2-NITROBENZOIC ACID)
Ozawa, Toshihiko,Hanaki, Akira
, p. 1101 - 1105 (2007/10/02)
The rate constants for the thiol-disulfide exchange, kSH, and for the thiolate ion-disulfide exchange, ks-, between biologically relevant aminothiols, i.e., cysteine, cysteamine and penicillamine, and 5,5'-dithiobis(2-nitrobenzoic acid), Ellman's reagent, in aqueous solutions were determined by a spectrophotometric method.The apparent rate constant, k1', increases with increase of pH under the experimental conditions used.The value of ks-, approximately 2x1E5 M-1s-1 except for penicillamine, appears to be independent of the pKa (SH), and kSH is three orders of magnitude smaller than ks-.The thiolate ion-disulfide exchange in penicillamine is one order of magnitude slower than in the other aminothiols.The results of the kinetic study indicate that one of the sulfur atoms of disulfide is attacked by the thiolate anion with subsequent cleavage of the S-S bond.Keywords: Ellman's reagent; thiol-disulfide exchange; rate constant; cysteine; cysteamine; penicillamine; aminothiol