Formyl formylation with

The yield of the more active RRR-a-tocopherol can be improved by selective methylation of the other tocopherol isomers or by hydrogenation of a-tocotrienol (25,26). Methylation can be accompHshed by several processes, such as simultaneous halo alkylation and reduction with an aldehyde and a hydrogen haUde in the presence of staimous chloride (27), amino alkylation with ammonia or amines and an aldehyde such as paraformaldehyde followed by catalytic reduction (28), or via formylation with formaldehyde followed by catalytic reduction (29). 

Hydrazinopyridazines are easily formylated with formic acid or ethyl formate and acety-lated with acetic anhydride. A-Pyridazinylthiosemicarbazides are obtained from thiocyanates or alkyl- and aryl-isothiocyanates. Hydrazinopyridazines condense with aliphatic and aromatic aldehydes and ketones to give hydrazones. 

Frontier orbital theory predicts that electrophilic substitution of pyrroles with soft electrophiles will be frontier controlled and occur at the 2-position, whereas electrophilic substitution with hard electrophiles will be charge controlled and occur at the 3-position. These predictions may be illustrated by the substitution behaviour of 1-benzenesulfonylpyr-role. Nitration and Friedel-Crafts acylation of this substrate occurs at the 3-position, whereas the softer electrophiles generated in the Mannich reaction (R2N=CH2), in formylation under Vilsmeier conditions (R2N=CHC1) or in formylation with dichloromethyl methyl ether and aluminum chloride (MeO=CHCl) effect substitution mainly in the 2-position (81TL4899, 81TL4901). Formylation of 2-methoxycarbonyl-l-methylpyrrole with... 

Cathylates are stable to oxidation with potassium chromate in acetic acid and with A-bromoacetamide, acetylation and formylation with 85 % formic acid at room temperature. They are cleaved by bases to give the parent alcohol, carbon dioxide and ethanol. 

The N-9 position of adenine was protected by formylation with basic formalin followed by silylation with TBDMSCl in Pyr, 86% yield. This group is removed with TFA/H2O, 20°, 2 h. ... 

Further substitution of 2,4-disubstituted and most 2,3-disubstituted thiophenes occurs in the free a-position, except when a - -M-substituent in the 3-position strengthens the 4-directing power of a —1—M-sub-stituent in the 2-position. Thus methyl 3-methyl-2-thiophenecar-boxylate is brominated in the 4-position and 3-brorao-2-thiophene-aldehyde is nitrated in the 4-position. Recent investigations on the chloromethylation, sulfonation, mercuration, and nitration of 2,4-di-chlorothiophene, which without proof are assumed to occur in the 5-position serves as examples of the reactivity of a 2,4-disubstituted thiophene. Formylation with iV,A-dimethylformamide and... 

Synthesis of the remaining half of the molecule starts with the formation of the monomethyl ether (9) from orcinol (8). The carbon atom that is to serve as the bridge is introduced as an aldehyde by formylation with zinc cyanide and hydrochloric acid (10). The phenol is then protected as the acetate. Successive oxidation and treatment with thionyl chloride affords the protected acid chloride (11). Acylation of the free phenol group in 7 by means of 11 affords the ester, 12. The ester is then rearranged by an ortho-Fries reaction (catalyzed by either titanium... 

A highly modified methyl testosterone derivative also exhibits antiandrogenic activity. One synthesis of this compound Involves initial alkylation of methyl testosterone (3 ) by means of strong base and methyl iodide to afford the 4,4-dimethyl derivative Formylation with alkoxide and... 

In contrast to the Vilsmeier formylation the formylation with trimethyl orthoformate in trifluoroacetic acid proceeds with high selectivity so that only the /3-monoformylated deuteroporphyrin derivatives 8 are formed without any methinc substituted or diformylated products.1073 6... 

A completely different concept13 makes use of a highly reduced bilane 5 which is oxidatively cyclized to an isobacteriochlorin 6 with copper(II) acetate. The ring closure is initiated by ester cleavage with trifluoroacetic acid and decarboxylative formylation with trimethyl orthoformate to yield a dialdehyde. One of the aldehyde functions forms the desired methine bridge whereas the other is lost during cyclization. 

Even though formic anhydride is not a stable compound (see p. 714), amines can be formylated with the mixed anhydride of acetic and formic acids (HCOO-COMe) °°° or with a mixture of formic acid and acetic anhydride. Acetamides are not formed with these reagents. Secondary amines can be acylated in the presence of a primary amine by conversion to their salts and addition of 18-crown-6. ° The crown ether complexes the primary ammonium salt, preventing its acylation, while the secondary ammonium salts, which do not fit easily into the cavity, are free to be acylated. 

Block one side of the ketone by introducing a removable group. Alkylation takes place on the other side the blocking group is then removed. A common reaction for this purpose is formylation with ethyl formate (10-119) this generally blocks the less hindered side. The formyl group is easily removed by alkaline hydrolysis (12-41). 

Formylation with Zinc Cyanide and HCI The Gatterman Reaction... 

Formylation with Zn(CN)2 and HCI is called the Gatterman reaction It can be applied to alkylbenzenes, phenols and their ethers, and many heterocyclic compounds. However, it cannot be applied to aromatic amines. In the original version of this reaction, the substrate was treated with HCN, HCI, and ZnCl2, but the use of Zn(CN)2 and HCI (HCN and ZnCF are generated in situ) makes the reaction more... 

Another method, formylation with CO and HCl in the presence of AICI3 and CuCl (the Gatterman-Koch reaction), is limited to benzene and alkylbenzenes. ... 

Formylation with Chloroform The Reimer-Tiemann Reaction... 

Besides 11-15-11-17, several other formylation methods are known. In one of these, dichloromethyl methyl ether formylates aromatic rings with Friedel-Crafts catalysts.The Compound ArCHClOMe is probably an intermediate. Orthoformates have also been used. In another method, aromatic rings are formylated with... 

Sterically hindered amines like 2,6-dimethylaniline can be formylated with AT-for-mylimidazole in excellent yield starting from formic acid and N,Nf-oxalyldiimidazole [411... 

Azolides are also capable to acylate anionic metal carbonyl compounds. For instance, disodium tetracarbonylferrate as well as the corresponding ruthenium and osmium compounds can be formylated with formylimidazole in the presence of boric acid methyl ester ... 

A type Ilbc approach to pyrroles was employed in the synthesis of pyrrolo[2,l-fc]thiazoles <06S1433>. The key step involved a formylation with the Vilsmeier-Haack reagent followed by a cyclocondensation of the putative iminium intermediate. 

The synthesis of the /m-benzo-separated analogue 380 of the broad spectrum antibiotic fervenulin was reported (81JOC1699) in five steps from 7-chloro-2,4(l//,3//)quinazolinedione 374. Nitration of 374 gave 375, whose methylation gave 376. Pursuant to the synthesis of 380, 376 was converted into 377 with hydrazine and then formylated with formic acid to give 378 or converted to the ethoxymethylene derivative 379. Catalytic hydrogenation of 378 or preferably 379 gave 380. 

FORMATION AND PHOTOCHEMICAL WOLFF REARRANGEMENT OF CYCLIC a-DIAZO KETONES D-NORANDROST-5-EN-3 -0L-16-CARB0XYLIC ACIDS, 52, 53 FORMIC ACID, AZIDO—, tert-BUTYL ESTER, 50, 9 Formylation, with acetic formic anhydride, 50, 2 p-FORMYLBENZENESULFONAMIDE, ... 

Stanozol Stanozol, 17a-methyl-5a-androstano[3,2-c]pyrazol-17j3-ol (29.3.13), is made by reducing the double bond at C4-C5 in methyltestosterone, which has independent interest as an anabolic drug of mestanolone (29.3.11). Mestanolone undergoes formylation with ethylformate in the presence of sodium ethoxide, forming a 2-formyl (oxymethylene) derivative (29.3.12), which upon reaction with hydrazine easily cyclizes to the desired stanazole (29.3.13), which is a pyrazol-condensed steroid system [33,34]. 

---