312-10-7Relevant articles and documents
Reaction of ascorbic acid with S-nitrosothiols: Clear evidence for two distinct reaction pathways
Holmes, Anthony J.,Williams, D. Lyn H.
, p. 1639 - 1644 (2007/10/03)
Ascorbate reacts with S-nitrosothiols generally, in the pH range 3-13 by way of two distinct pathways, (a) at low [ascorbate], typically below ~1 × 10-4 mol dm-3 which leads to the formation of NO and the disulfide, and (b) at higher [ascorbate] when the products are the thiol and NO. Reaction (a) is Cu2+-dependent, and is completely cut out in the presence of EDTA, whereas reaction (b) is totally independent of [Cu2+] and takes place readily whether EDTA is present or not. For S-nitrosoglutathione (GSNO) the two reactions can be made quite separate, although for some reactants the two reactions overlap. In reaction (a), ascorbate acts as a reducing agent, generating Cu+ from Cu2+, which in turn reacts with RSNO forming initially NO, Cu2+ and RS-. The latter can then play the role of reducing agent for Cu2+, leading to disulfide formation. Ascorbate will initiate reaction when the free thiolate has initially been reduced to a very low level by the synthesis of RSNO from a large excess of nitrous acid over the thiol. Reaction (b) is interpreted in terms of nucleophilic attack by ascorbate at the nitroso-nitrogen atom, leading to thiol and O-nitrosoascorbate which breaks up, by a free-radical pathway, to give dehydroascorbic acid and NO. A similar pathway is the accepted mechanism in the literature for the nitrosation of ascorbate by nitrous acid and alkyl nitrites. The rate constant for the Cu2+-independent pathway increases sharply with pH and analysis of the variation of the rate constant with pH identifies a reaction pathway via both the mono- and di-anion forms of ascorbate, with the latter being the more reactive. As expected the entropy of activation is large and negative. Some aspects of structure-reactivity trends are discussed.
REACTION OF ARSENIC(III) OXIDE, ARSENOUS AND ARSENIC ACIDS WITH THIOLS
Serves, Spyros V.,Charalambidis, Yiannis C.,Sotiropoulos, Demetrios N.,Ioannou, Panayiotis V.
, p. 109 - 116 (2007/10/03)
Arsenic(III) oxide and arsenous acid in water or aqueous ethanolic solutions react, at room temperature, with a variety of lipophilic and hydrophilic thiols giving quantitatively triaryl and trialkyl trithioarsenites, (ArS)3As and (RS)3As.Aqueous solution