Pyridine, 4-methyl-, chlorination

Starting from 2-thienylacrylic acid (244), thionyl chloride and pyridine, the chlorinated thieno[3,2-6]thiophene derivative (245) was formed along with the more highly chlorinated product (246), which was isolated as its methyl ester (247 Scheme 83). In refluxing toluene or chlorobenzene, product (245) was not observed and only the ring-chlorinated acid chloride (246) was isolated in 13% yield. A number of analogs were prepared via this reaction <76AHC(19)123). 

Photochemical formylation of carbazole,methyl-carbazoles,and diphenylamine has been observed when they are illuminated with ultra-violet light or sunlight in chloroform solution, while chlorination products of pyrene and perylene have been observed when these arenas are irradiated in carbon tetrachloride.A report of the light induced chlorination of pyridine by chlorine in the gas phase has also appeared. 

Redox titrants (mainly in acetic acid) are bromine, iodine monochloride, chlorine dioxide, iodine (for Karl Fischer reagent based on a methanolic solution of iodine and S02 with pyridine, and the alternatives, methyl-Cellosolve instead of methanol, or sodium acetate instead of pyridine (see pp. 204-205), and other oxidants, mostly compounds of metals of high valency such as potassium permanganate, chromic acid, lead(IV) or mercury(II) acetate or cerium(IV) salts reductants include sodium dithionate, pyrocatechol and oxalic acid, and compounds of metals at low valency such as iron(II) perchlorate, tin(II) chloride, vanadyl acetate, arsenic(IV) or titanium(III) chloride and chromium(II) chloride. 

Many other glycosides have been subjected to selective chlorination with sulfuryl chloride. Methyl /3-L-arabinopyranoside afforded methyl 4-chloro-4-deoxy-a-D-xylopyranoside 2,3-di(chlorosulfate) in 29% yield, whereas the a-L anomer gave357 methyl 3,4-dichloro-3,4-dideoxy-/3-i)-ribopyranoside 2-(chlorosulfate) (30%). Methyl /3-d-ribopyranoside was converted into methyl 3,4-dichloro-3,4-dideoxy-a-L-arabinopyranoside through the action of pyridine hydrochloride on its 2,3,4-tri(chlorosulfate).358 Methyl a-D-lyxopyranoside gave only the 2,3,4-tri(chlorosulfate),353 as would be expected from the disposition of its hydroxyl groups, similar to that in the rhamno- and manno-pyranosides. Methyl a-D-altropyranoside was transformed into the 6-chloro-6-deoxy 2,3,4-tri(chlorosulfate) derivative in 80% yield.353... 

The reaction of sulfuryl chloride with carbohydrates to give chloro-deoxy derivatives has been reviewed briefly in this Series.98 The reaction of sulfuryl chloride with monosaccharides has been shown to afford products in which the secondary hydroxyl groups are replaced by chlorine with inversion of configuration.68-75 Jones and coworkers reported that the reaction of methyl a-D-glucopyranoside with sulfuryl chloride and pyridine in chloroform at room temperature proceeds by way of the 4,6-bis(chlorosulfate) by an Sn2 process, with chloride as the nucleophile, to give methyl 4,6-dichloro-4,6-dideoxy-a-D-galactopyranoside 2,3-bis(chlorosulfate).74... 

Chlorine, Chlorinated pyridine, Iron powder, 4047 Chlorine, Dichloro(methyl)arsine, 4047... 

An excellent example of the application of pyridine lithiation is the synthesis of the fully substituted pyridine atpenin B 255, an antibiotic produced by Penicillium. Its first synthesis, in 1994, was achieved by a series of directed metallations (Scheme 126) which started with 2-chloropyridine 256 and introduced the substituents stepwise around the ring. 2-Chloropyridine can be lithiated ortho-directed by the chlorine) by either LDA or by PhLi, and the organolithium 257 was oxidized to 258 with trimethylborate and then peracetic acid. 0-Methylation and substitution of chloride by methoxide gave 2,3-dimethoxypyridine 259 (Scheme 127). 

By way of contrast, when 6.8 equivalents of BzCl was used under identical circumstances, in a manner similar to that observed with methyl (1-maltoside, a hexabenzoate with the 3 -OH free was isolated in 33% yield, and this could be chlorinated in high yield with S 2 inversion by using sulfuryl chloride and pyridine (Scheme 20). 

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