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W2313994511 startingPage "3112" @default.
W2313994511 abstract "The denitrosation of three primary S-nitrosothiols (RSNO; S-nitrosocysteine, S-nitroso-N-acetylcysteine, and S-nitrosoglutathione) and two tertiary RSNOs (S-nitrosopenicillamine and S-nitroso-N-acetylpenicillamine) was investigated in 3.75 M H2SO4 to probe the mechanism of acid-catalyzed RSNO hydrolysis and its dependence on RSNO structure. This reversible reaction was forced to proceed in the denitrosation direction by trapping the nitrosating agent with HN3. The primary RSNOs exhibited hydrolysis kobs values of ∼2 × 10−4 s−1, and the tertiary RSNO kobs values were an order of magnitude higher. Product analysis by HPLC revealed that the parent thiols (RSHs) were formed in 90−100% yield on 79−99% RSNO denitrosation. Possible hydrolysis mechanisms were studied computationally at the CBS-QB3 level using S-nitrosomethanethiol (MeSNO) as a model RSNO. Consideration of RSNOs as a combination of conventional R−S−N═O, zwitterionic R−S+═N−O−, and RS−/NO+ ion-pair resonance structures was key in understanding the mechanistic details of acid-catalyzed hydrolysis. Protonation of the S-nitroso oxygen or nitrogen activates the sulfur and nucleophilic attack by H2O at this atom leads to the formation of the sulfoxide-protonated N-hydroxysulfinamide, MeS+(OH)NHOH, with barriers of 19 and 29 kcal/mol, respectively. Proton loss and reprotonation at the nitrogen lead to secondary hydrolysis that produces the sulfinic acid MeS(═O)OH and NH2OH. Notably, no low-energy RSNO hydrolysis pathway for HNO release was found in the computational analysis. Protonation of the S-nitroso sulfur gives rise to NO+ release with a low activation barrier (ΔH⧧calc ≈ 6 kcal/mol) and the formation of MeSH in agreement with experiment. The experimental kobs can be expressed as Kak1, where Ka is the acid dissociation constant for protonation of the S-nitroso sulfur and k1 the pseudo-first-order hydrolysis rate constant. Given the low ΔH⧧calc for denitrosation of the S-protonated isomer, the observed slow rates of acid-catalyzed RSNO hydrolysis must be controlled by the magnitude of Ka. The 10-fold higher Ka calculated for Me3CS(H+)NO (∼10−15) compared to MeS(H+)NO (10−16) is consistent with the order of magnitude larger kobs reported here for the tertiary vs primary RSNOs." @default.
W2313994511 created "2016-06-24" @default.
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W2313994511 date "2011-03-08" @default.
W2313994511 modified "2023-09-27" @default.
W2313994511 title "Kinetics and Mechanism of <i>S</i>-Nitrosothiol Acid-Catalyzed Hydrolysis: Sulfur Activation Promotes Facile NO<sup>+</sup> Release" @default.
W2313994511 cites W120961229 @default.
W2313994511 cites W1764308599 @default.
W2313994511 cites W1974563263 @default.
W2313994511 cites W1975728757 @default.
W2313994511 cites W1981368803 @default.
W2313994511 cites W1984135972 @default.
W2313994511 cites W1991035419 @default.
W2313994511 cites W1992173555 @default.
W2313994511 cites W1992222823 @default.
W2313994511 cites W1994372519 @default.
W2313994511 cites W1995794402 @default.
W2313994511 cites W1998725642 @default.
W2313994511 cites W1998792067 @default.
W2313994511 cites W1999248820 @default.
W2313994511 cites W2002777248 @default.
W2313994511 cites W2005205544 @default.
W2313994511 cites W2006172842 @default.
W2313994511 cites W2010586937 @default.
W2313994511 cites W2013326577 @default.
W2313994511 cites W2019814232 @default.
W2313994511 cites W2023271753 @default.
W2313994511 cites W2027641606 @default.
W2313994511 cites W2031782227 @default.
W2313994511 cites W2038083805 @default.
W2313994511 cites W2039559098 @default.
W2313994511 cites W2044039308 @default.
W2313994511 cites W2047237442 @default.
W2313994511 cites W2047279058 @default.
W2313994511 cites W2047596252 @default.
W2313994511 cites W2048487643 @default.
W2313994511 cites W2049505174 @default.
W2313994511 cites W2057815662 @default.
W2313994511 cites W2058405346 @default.
W2313994511 cites W2063195126 @default.
W2313994511 cites W2063806695 @default.
W2313994511 cites W2064658344 @default.
W2313994511 cites W2065773243 @default.
W2313994511 cites W2078356260 @default.
W2313994511 cites W2078949482 @default.
W2313994511 cites W2086474844 @default.
W2313994511 cites W2086505034 @default.
W2313994511 cites W2091876246 @default.
W2313994511 cites W2094858078 @default.
W2313994511 cites W2095115132 @default.
W2313994511 cites W2108772802 @default.
W2313994511 cites W2110143133 @default.
W2313994511 cites W2145678380 @default.
W2313994511 cites W2148284063 @default.
W2313994511 cites W2152287206 @default.
W2313994511 cites W2169232518 @default.
W2313994511 cites W2951769065 @default.
W2313994511 cites W3004892406 @default.
W2313994511 cites W4235919897 @default.
W2313994511 cites W50658563 @default.
W2313994511 cites W2077833680 @default.
W2313994511 doi "https://doi.org/10.1021/jp1035597" @default.
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