Thiols allylic alcohols

Potential precursors to stereoselective INOC and ISOC reactions (e.g., 195 and 196, respectively) have been prepared via stereoselective conjugate additions of several allylic alcohols (e.g., 194,X = 0) and an allylic thiol (e.g., 194,X = S) to a chiral (E)-nitro alkene (e. g., 193) that was derived from (P)-2,3-isopropylidene... 

Conversion of Allyl alcohols into their Corresponding Thiols or Diallyl Sulfides... 

In 2004, Yang and Tseng reported the synthesis of a series of new chiral amino thiol ligands derived from L-valine, which were further employed (1 mol%) in the enantioselective alkenylzinc addition to aldehydes, providing an efficient route for chiral ( )-allylic alcohols with enantioselectivities of up to >99% ee, as shown in Scheme 3.67. ... 

Ono and coworkers have extended the radical elimination of v/c-dinitro compounds to P-nitro sulfones151 and P-nitro sulfides.138,152 As P-nitro sulfides are readily prepared by the Michael addition of thiols to nitroalkenes, radical elimination of P-nitrosulfides provides a useful method for olefin synthesis. For example, cyclohexanone is converted into allyl alcohol by the reaction shown in Eq. 7.110. Treatment of cyclohexanone with a mixture of nitromethane, PhSH, 35%-HCHO, TMG (0.1 equiv) in acetonitrile gives ahydroxymethylated-P-nitro sulfide in 68% yield, which is converted into the corresponding allyl alcohol in 86% yield by the reaction with Bu3SnH.138 Nitro-aldol and the Michael addition reactions take place sequentially to give the required P-nitro sulfides in one pot. 

Several related reations are summarized in Scheme 4.13. When a nucleophilic OH or NH2 group exists at the proper position of the olefinic substrate, cyclohy-drocarbonylation provides a lactone or a lactam. Allyl alcohols" " and homoallyl amines are converted into y-lactones and 8-lactams in high enantiomeric excesses. Thiol is employable as a nucleophile for hydrocarbonylation of a C—C double bond. A successful catalytic carbonylation is reported for hydrothiocarbonylation. ... 

The reactions of hydrogen peroxide with vanadate have been of interest for many years. Much of the early work was concerned with the function of peroxovanadates as oxygen transfer agents. Alkenes and similar compounds such as allyl alcohols can be hydroxylated or epoxidized. Even alkanes can be hydroxylated, whereas alcohols can be oxidized to aldehydes or ketones and thiols oxidized to sulphones or sulphoxides. Aromatic molecules, including benzene, can be hydroxylated. The rich chemistry associated with the peroxovanadates has, therefore, led to extensive studies of their reaction chemistry. To this end, x-ray diffraction studies have successfully provided details of a number of peroxovanadate structures. 

Ohno Y, Jones TW, Ormstad K. 1985. Allyl alcohol toxicity in isolated renal epithelial cells Protective effects of low molecular weight thiols. Chem.-Biol Interact 52 289-299. 

Ohno Y, Ormstad, K, Ross D, et al. 1985. Mechanism of allyl alcohol toxicity and protective effects of low-molecular-weight thiols studied with isolated rat hepatocytes. Toxicol Appl Pharmacol 78 169-179. 

A mild procedure for the appendage of MOM groups to acid-sensitive substrates is illustrated by the protection of the allylic alcohol in Avermectin derivative 259.1 using [(methoxymethyl)thio]-2-pyridine (259 2) sitver(I) Inflate and sodium acetate in THF at room temperature [Scheme 4.259],479 Primary secondary and tertiary alcohols and phenols are methoxymethylated in good yield though phenols are slower to react. Reagent 259.2 (bp 66 °C/0.088 kPa) is easily prepared in 75% yield by the reaction of pyridine-2-thiol with dimethoxy-methane activated by trifluoroborane etherate. 

Sulfides. Benzylic or allylic alcohols react with thiols in the presence of zinc iodide (0.5 equiv.) in 1,2-dichloroethane at 20° to form sulfides in yields generally of 80-90%. 

Carbonyl transposition.1 Tetrafluoroboric acid is the most effective acid for rearrangement of a-hydroxy ketene dithioketals to a,p-unsaturated thiol esters. This rearrangement is particularly useful for rearrangement of the tertiary allylic alcohols formed by addition of organometallic reagents to a-keto ketene dithioketals, which are readily available by reaction of ketone enolates with carbon disulfide followed by alkylation with methyl iodide. 

The tetraalkylammonium chromates prepared by Gelbard and coworkers a q)eared to be equally effective for all types of alcohols, but under the conditions of Santaniello et al., tetra-n-butylammonium chlorochromate was found to be a selective benzylic and allylic oxidant. It also efficiently converts aliphatic and aromatic thiols to disulfides. Trimethylammonium chlorochromate has also bera reported for the oxidation of allylic alcohols in DMF. ... 

Oxidation. Triphenylbismuth carbonate suspended in CH2CI2 is a heterogeneous oxidant for a variety of functional groups. Allylic alcohols are efficiently oxidized to the corresponding unsaturated aldehydes or ketones, even in the presence of a thiol, which is itself oxidized by this reagent to a disulfide, cis- and Irani-1,2-Glycols are cleaved to dialdehydes hydrazones are oxidized to diazocompounds oximes are cleaved to ketones and 1,2-dialkylhydrazines are oxidized to azo compounds. Phenylhydrazones, semicarbazones, tosylhydrazones, aromatic and aliphatic amines, enamines, and enol ethers are inert to 1. 

Nickel catalysts also catalyze Grignard substitution to allylic compounds including allyl alcohol [230-233] ethers [230,231,234,235 Eq. (106) 231] amines, albeit in a low product yield [231] sulfides [231,236,237], including thioacetals [238] thiols [231] selenides [239] carboxylates [240] phosphates [94,121] and halides [Eq. (107) 230], most likely via intermediate / -allyl-Ni species. Monosubstitution of bis-allyl ether was possible [Eq. (108) 235]. Most of the literatures cited in the foregoing disclosed regiochemical outcome associated with these allylic substitutions. 

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