Alkyl with thiols

Various S-nucleophiles are allylated. Allylic acetates or carbonates react with thiols or trimethylsilyl sulfide (353) to give the allylic sulfide 354[222], Allyl sulfides are prepared by Pd-catalyzed allylic rearrangement of the dithio-carbonate 355 with elimination of COS under mild conditions. The benzyl alkyl sulfide 357 can be prepared from the dithiocarbonate 356 at 65 C[223,224], The allyl aryl sufide 359 is prepared by the reaction of an allylic carbonate with the aromatic thiol 358 by use of dppb under neutral condi-tions[225]. The O-allyl phosphoro- or phosphonothionate 360 undergoes the thiono thiolo allylic rearrangement (from 0-allyl to S -allyl rearrangement) to afford 361 and 362 at 130 C[226],... 

A problem associated with the use of abrasive metal poHshes is that the fresh metal, which has been exposed by the cleaning, rapidly oxidizes or tarnishes. Thus, many modem poHshes contain inhibitors. Sulfur compounds, eg, alkyl benzyl thiols, commonly are used, as are mercapto esters such as lauryl thioglycolate [3746-39-2] and dialkyldisulfides (52—54). 

Formation of Sulfides. Thiols react readily with alkenes under the same types of conditions used to manufacture thiols. In this way, dialkyl sulfides and mixed alkyl sulfides can be produced. Sulfides are a principal by-product of thiol production. Mixed sulfides can be formed by the reaction of the thiol using a suitable starting material, as shown in equations 21, 22, and 23. Vinyl sulfides can be produced by the reaction of alkynes with thiols (38). 

Alkyldithio carbamates are prepared from the acid chloride (Et N, EtOAc, 0°) and amino acid, either free or as the O-silyl derivatives (70-88% yield). The N- i-propyldithio) carbamate has been used in the protection of proline during peptide synthesis. Alkyldithio carbamates can be cleaved with thiols, NaOH, Ph P/TsOH. They are stable to acid. Cleavage rates are a function of the size of the alkyl group as illustrated in the table below. 

In a further development on this theme, the thiol, 153, is first alkylated to the corresponding benzyl ether (158). Treatment with sodium methoxide removes the proton on the amide nitrogen to afford the ambient anion (159). This undergoes alkylation with methyl bromide on the ring nitrogen thus it locks amide into the imine form (160). Chlorolysis serves both to oxidize the sulfur to the sulfone stage and to cleave the benzyl ether linkage there is thus obtained the sulfonyl chloride, 161. 

Reaction of ethyl cyanoacetate with ethyl thiol acetate produces a and mixture of the dihydrothiazole derivative 80. This is ji-alkylated with methyl iodide and base (8 ), the active methylene group is brominated (82), and then a displacement with piperidine (83) is performed. Hydrolysis completes the synthesis of the diuretic agent, ozolinone (84). 

British investigators (Haddow and Timmis 1951) synthesized and studied esters of the methanesulfonic acid. The most active derivative was the dimethylsulfonic ester of 1,4-butanedione, known as busulfan. Busulfan interacts with the thiol groups of proteins and amino acids some of its metabolites can alkylate the thiols of cysteine, peptides and proteins. Busulfan exerts selective cytotoxic activity in hematopoietic bone marrow cells and inhibits the formation of granulocytes and platelets. It slightly affects the lymphoid tissue. 

Thiols react more rapidly with nucleophilic radicals than with electrophilic radicals. They have very large Ctr with S and VAc, but near ideal transfer constants (C - 1.0) with acrylic monomers (Table 6.2). Aromatic thiols have higher C,r than aliphatic thiols but also give more retardation. This is a consequence of the poor reinitiation efficiency shown by the phenylthiyl radical. The substitution pattern of the alkanethiol appears to have only a small (<2-fokl) effect on the transfer constant. Studies on the reactions of small alkyl radicals with thiols indicate that the rate of the transfer reaction is accelerated in polar solvents and, in particular, water.5 Similar trends arc observed for transfer to 1 in S polymerization with Clr = 1.4 in benzene 3.6 in CUT and 6.1 in 5% aqueous CifiCN.1 In copolymerizations, the thiyl radicals react preferentially with electron-rich monomers (Section 3.4.3.2). 

Fully acetylated hexopyranoses react with thiols in the presence of Lewis acids, such as BF3-Et20.32,33 The reaction is faster with 1,2-trans acetates than with the corresponding 1,2-cij ones and 1,2-trans products predominate. Alkyl, alkenyl, and aryl thioglycosides are produced by this method. Variations on this method include the use of trimethylsilyl34 or stannyl derivatives35 of the thiols. 

Aldehydes and ketones have been converted to sulfides by treatment with thiols and pyridine-borane, RCOR -I- R"SH —+ RR CHSR", in a reductive alkylation reaction, analogous to 16-6. 

Catalytic hydrogenation with platinum liberates the hydrocarbon from methylcobalamin (57) and from alkyl-Co-DMG complexes (161), but not from pentacyanides with primary alkyl, vinyl, or benzyl ligands, though the cr-allyl complex yields propylene (109). Sodium sand gives mixtures of hydrocarbons with the alkyl-Co-salen complexes (64). Dithioerythritol will liberate methane from a variety of methyl complexes [cobalamin, DMG, DMG-BF2, G, DPG, CHD, salen, and (DO)(DOH)pn] (156), as will 1,4-butanedithiol from the DMG complex (157), and certain unspecified thiols will reduce DMG complexes with substituted alkyl ligands (e.g., C0-CH2COOH ->CH3C00H) (163, 164). Reaction with thiols can also lead to the formation of thioethers (see Section C,3). 

Propiolactone is one example. It will alkylate amino, imino, hydroxyl and carboxyl groups, all of which occur in proteins, and react also with thiol and disulphide groups responsible for the secondary structure of proteins and the activity of some enzymes. 

As mentioned earlier, the therapeutic use of organic nitrites [4] actually predates that of organic nitrates [1], Clinical utilisation of nitrites has, however, been very much less and this is reflected in the relatively sparse attention given to their mechanisms of action. Alkyl nitrites react readily with thiols to form S-nitrosothiols [122], which show biological effects similar to those of NO [11]. Nevertheless, glutathione-S-transferase has been implicated in the metabolism of organic nitrites, via intermediate... 

Several examples have been reported of rearrangements of arsine oxides (51) to esters, initiated by alkyl halides.42 43 Reactions of tertiary arsine oxides with thiols (52) cause deoxygenation.44... 

The extent of formation of protein disulfides with time was determined by withdrawing aliquots which were acidified to pH 5.5 and alkylated with N-ethylmaleimide. The disulfide content of the peptide was determined after its isolation. Formation of two intrapeptide disulfide bonds proceeded at the same rate (within experimental error) as formation of the first two disulfides in reduced lysozyme. The first-order rate constant for these two processes (0.5 min-1) was eight times that describing the rate of oxidation of reduced lysozyme in the presence of 6 M guanidinium chloride, suggesting substantial specificity in the process in absence of denaturant. An additional indication of specificity was the finding that 13-105 reached its maximum of two —S—S— bonds in less than 20 minutes, retaining one reduced thiol from 20 to 240 minutes. For subsequent studies this material was S-alkylated with N-ethylmaleimide. 

Table 4.15. Preparation of thioethers by S-alkylation of thiols with electrophilic carbene complexes.

Reaction of 56 with thiols in dichloromethane gives the analogous alkyl-thiomethyl and cycloalkylthiomethyl derivatives [e.g., treatment with ethanethiol gives A -(2-hydroxyethylthiomethyl)vinblastine (57)] (75). Compound 56 is also a useful intermediate for the preparation of N-1-furanyl derivatives. For example, treatment of 56 with furfuryl alcohol in methylene chloride in the presence of trace acid gives N -[(5-hydroxy-methyOfurfuryl]vinblastine (58). 

Fig. 9 Reaction of N-protected 2-aryl or alkyl azides with thiols...

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