6- Methoxy-2- - -iodid

CA Index Name Quinolinium, l-ethyl-6-methoxy-, iodide (1 1)... 

Interestingly, the 1,4-diiodide 25a afforded mainly the acetal 28 rather than the dimethoxy product 27. Acetal 28 apparently arises from fragmentation of the 4-methoxy cation 29 prior to trapping with CHjOH since it was also the principal product from separate irradiation of the 4-methoxy iodide 26a. In contrast with diiodide 25a, the 1,4-dibromide 25h afforded predominantly the reduction product 8b. 

Quatemization of various pyridazinethiones and pyridazinyl sulfides is dependent on the substituents attached to the pyridazine ring. For example, 3-methylthiopyridazine and 6-methyl-3-methylthiopyridazine react with methyl iodide to form the corresponding 1-methyl-3-methylthio and l,6-dimethyl-3-methylthio derivatives (85). On the other hand, if a larger group, such as methoxy or phenyl, is attached at the 6-position, quaterniza-tion takes place at position 2 to give 6-substituted 2-methyl-3-methylthiopyridazines (86 Scheme 24). 

The O-alkyl derivatives of those A-oxides, which exist partly or entirely as (V-hydroxy tautomers, may be made by primary synthesis (as above) or by alkylation. Thus, 5,5-diethyl-1-hydroxybarbituric acid (936 R = H) with methyl iodide/sodium ethoxide gives the 1-methoxy derivative (936 R = Me) or with benzenesulfonyl chloride/ethoxide it gives the alkylated derivative (936 R = PhS02) (78AJC2517). 

Acid catalyzed cleavage of aromatic methyl or ethyl ethers Quantitative methoxy group determination Also ether cleavage with tnmethylsilyl Iodide ... 

Aromatic methoxy group determination Anisole 1 is heated in HI (10 mL) arxi the methyl iodide which distills is trapped In AgNOs. The Agl is determined gravimetncally. 

Pyrogallol monomethyl ether has been prepared by the methylation of pyrogallol with dimethyl sulfate or methyl iodide by the decarboxylation of 2,3-dihj droxy-4-methoxy-benzoic acid and by the methylation of pyrogallol carbonate with diazomethane and subsequent hydrolysis. The method described is taken from the improved procedure of Baker and Savage for the preparation of pyrogallol monomethyl ether from o-vanillin by oxidation with hydrogen peroxide. 

Anhalonine and Lophophorine. Spath and Gangl showed that each of these alkaloids contains a methylenedioxy group and that the quarternary iodide prepared from dZ-anhalonine is identical with lophophorine methiodide so that lophophorine must be N-methylanhalonine. Anhalonine was synthesised from 3 4-methylenedioxy-5-methoxybenzaldehyde by condensation with nitromethane, reduction of the product to the corresponding -ethylamine, the acetyl derivative (VII) of which, on treatment with phosphoric anhydride, condensed to 6-methoxy-7 8-methylenedioxy-l-methyl-3 4-dihydrofsoquinoline, m.p. 60-2°. This, on reduction, furnished the corresponding tetrahydrofsoquinoline, which proved to be anhalonine (VIII), and on conversion to the quaternary methiodide the latter was found to be lophophorine (IX) methiodide. The possible alternative, 8-methoxy-6 7-methylenedioxy-l 2-dimethyl-l 2 3 4-tetrahydrofsoquinoline, was prepared by Freund s method and the methiodide shown not to be identical with lophophorine methiodide. 

Ewins has synthesised both substances from m-methoxybenzoic acid, which on nitration gave 2-nitro-3-methoxybenzoic acid, and this, on reduction and treatment with methyl iodide, yielded damasceninic acid, which, by esterification with methyl alcohol, furnished damascenine. Kaufmann and Rothlen found that the additive product of 8-methoxy-quinoline and methyl sulphate, on oxidation with permanganate, yields formyldamasceninic acid, MeO. CgH3(NMe. CHO). COOH, which can be transformed into damasceninic acid by warming with dilute hydrochloric acid. ... 

Apparently the role of methanol is to intercept unstable species which otherwise tend to polymerize or rearrange. The methoxy peroxide (72) can be isolated in crystalline form if desired, but it is preferable to treat the methylene dichloride solution at 0° with zinc dust and acetic acid until the mixture shows a negative potassium iodide test. The resulting crude seco-aldehyde (73) is then cyclized to (74) by stirring with neutral alumina in benzene at room temperature for 3 hr. ° Wechter has recently reported a number of transformations of a 5yS-hydroxy-6yS-formyl-B-norpregnane prepared in 8% yield by photolysis and hydrolysis of a 5a-hydroxy-6 -azidopregnane. 

The pyrimidine compounds are known to undergo a rearrangement of the 0-alkyl derivatives to the iV-alkyl ones. The methoxy derivatives of 1,3,5-triazine display a similar behavior. On applying methyl iodide to 2,4-dimethoxy-l,3,5-triazine one of the methyl groups is shifted giving rise to l-methyl-4-methoxy-derivative (22). This compound was also obtained by methylation of 4-methoxy-2-oxo-1,2-dihydro-1,3,5-triazine (18) with diazomethane. At higher temperature (100°C) in presence of methyl iodide a shift of both methyl groups takes place and methiodide is formed simultaneously (23). Similarly,... 

Majima et al. prepared ethyl y-(3-indolyl)-y-oxobut3rrate (250) in a similar manner by the condensation of the indole Grignard reagent with -ethoxycarboiiylpropionyl chloride.Methyl y-(3-indolyl)-y-oxobutyrate (251) has been obtained by the action of mcthoxycarbonylpropionyl chloride on indole magnesium iodide in ether. Ballantine et al. prepared methyl y-(5-methoxy-3-... 

Cyclic hydroxamic acids and V-hydroxyimides are sufficiently acidic to be (9-methylated with diazomethane, although caution is necessary because complex secondary reactions may occur. N-Hydroxyisatin (105) reacted with diazomethane in acetone to give the products of ring expansion and further methylation (131, R = H or CH3). The benzalphthalimidine system (132) could not be methylated satisfactorily with diazomethane, but the V-methoxy compound was readil3 obtained by alkylation with methyl iodide and potassium carbonate in acetone. In the pyridine series, 1-benzyl-oxy and l-allyloxy-2-pyridones were formed by thermal isomeriza-tion of the corresponding 2-alkyloxypyridine V-oxides at 100°. 

Trimethoxypyrimidine reacts very slowly with methyl iodide to give the methoxy-dimethyluracil. Although no quaternary salts... 

We first tried to prepare 1-hydroxyyohimbine (23) and its derivatives. With 23 in hand (as described in Section II.D), its methylation with CH2N2 is carried out to provide 1-methoxy derivative 304 (77%) (Scheme 47). Utilizing K2CO3 as a base in DMF, allyl bromide, butyl iodide, and p-nitrobenzyl bromide react successfully with 23, resulting in the formation of 305 (93%), 306 (99%), and 307 (90%), respectively. All of these compounds, including 23 itself, are found to exhibit potent Q 2-blocking activity (2001H1237), and the details will be reported in due course. 

The methyl ether of eugenol, CjjHj 02, is found in calamus oil, cassie oU, betel oil, bay oil, and various other essential oils. It can be prepared artificially by the action of methyl iodide on eugenol sodium. Its constitution is identical with that of eugenol, except that the phenolic group, OH, has been replaced by the methoxy group, O. CHg. 

To a solution of 4 g of sodium in 200 ml of n-propanol is added 39 g of homovanillic acid-n-propyl ester (boiling point 160°C to 162°C/4 mm Hg) and the mixture is concentrated by evaporation under vacuum. After dissolving the residue in 200 ml of dimethylformamide and the addition of 0.5 gof sodium iodide, 26.2 g of chloracetic acid-N,N-diethylamide are added drop-wise with stirring at an internal temperature of 130°C, and the mixture is further heated at 130°C for three hours. From the cooled reaction mixture the precipitated salts are removed by filtering off with suction. After driving off the dimethylformamide under vacuum, the product is fractionated under vacuum, and 44.3 g of 3-methoxy-4-N,N-diethylcarbamido-methoxy phenyl acetic acid-n-propyl ester are obtained as a yellowish oil of boiling point 210°C to 212°C/0,7 mm Hg,... 

Methyl ethyl (7-methoxy-10-methyl-3-phenthiazinyl)malonate (62.2 grams) followed by methyl iodide (45.7 grams) is added to a solution of sodium (4.45 grams) in anhydrous ethanol (500 cc). The reaction mixture is heated under reflux for 1 hour at 45°C, then for 6 hours at 55°C, and finally concentrated to dryness under reduced pressure (20 mm Hg). The residue is taken up in methylene chloride (300 cc) and water (250 cc), filtered in the presence of a filtration adjuvant, washed with methylene chloride (150 cc) and water (150 cc), and decanted. The aqueous solution is extracted once again with methylene chloride (100 cc), and the combined organic solutions washed with water (100 cc), aqueous 0.1 N sodium hyposulfite solution (200 cc) and finally with water (200 cc). After drying over anhydrous sodium sulfate and evaporation to dryness under reduced pressure (20 mm Hg), there is obtained an oil (64.8 grams) which is dissolved in methylene chloride (100 cc) and... 

Aroyl-1 H-1,2-diazepin-3(2//)-ones 27 are obtained80 by demethylation90 of 3-methoxy-l H-1,2-diazepines (vide supra) with chlorotrimethylsilane/sodium iodide. 

Using oxathiane 11, ( + )-(i )-2-methoxy-2-phenylpropanoic acid was obtained in 97% ee, however, the synthesis contains some inconvenient reaction steps. Thus, reduction of ( + )-10-camphorsulfonic acid (8) leads in low yield to a mixture of 10-mercaptoisoborneol (9 A) and 10-mercaptoborneol (9B) which must be separated by chromatography. The oxathiane 10 resists deprotonation with butyllithium and, therefore,, y -butyllithium had to be employed. Furthermore, after addition of methylmagnesium iodide, cleavage of the oxathiane moiety 12, with iodomethane did not proceed as well as with the simpler oxathianes 3. 

Mononitro Methyl Anisole (2-Nitro-4-methyl anisole, 3-Nitro4-methoxy l-methyl benzol or Methyl- [2-nitro4 methyl phenyl]-ether). CH3.0.(N02)C6H3.CH3, mw 167.18, N 8.38%, OB to C02-167.48%, pale yellow cryst, mp 8.5°, bp 274° (partial decompn), d 1.2025 g/cc at 25/4°, Rl 1.5536 si sol in eth (Ref 1). Prepd by heating K2-nitro-p-cresol with methyl-iodide methylalc in a sealed tube at 100°... 

The radical alkylation of ketones is achieved by their conversion into the desired N-silyloxy enamines 81 (Scheme 13). The reaction of 81 with diethyl bromomalonate in the presence of EtsB (0.5 equiv) in benzene was performed in open air and stirred at room temperature for 3h. With nitro compounds it is achieved by their conversion into the desired ]V-bis(silyloxy)enamines (82) (Scheme 13). When the reaction is carried out with 82 and alkyl iodides with an electron-withdrawing substituent at the a-position, using V-70 as radical initiator (2,2 -azobis(4-methoxy-2,4-dimethylvaleronitrile)), it underwent a clean radical alkylation reaction to yield an oxime ether. Successful radical alkylation of... 

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