Hydroxy amines from carbamates

The hydroxy groups in natural products like, for example, the macrolide antibiotics erythromycin, 1"1 and desmycosin, 2001 2011 as well as the 3-(hydroxymethyl)-2- or 3-cephems 2021 and derivatives of the amino sugar garamin 2031 have been converted into the carbamate function with CDI and amines. In the case of aminoglycoside antibiotics of the sisomicin series, thiocarbamates or dithiocarbamates have been prepared from alcohols or thiols using ImCSIm and amines.12041... 

The formation of vinylcarbamates is restricted to secondary amines and also to terminal alkynes, which is in line with the formation of a metal vinylidene intermediate. It is noteworthy that even starting from secondary amines, the presence of a hydroxy group in propargylic alcohols drove the reaction towards the formation of fi-keto carbamates, resulting from initial Markovnikov addition of the carbamate anion to the triple bond followed by intramolecular transesterification [10]. The proposed general catalytic cycle which applies for the formation of vinylic carbamates is shown in Scheme 10.2. 

Chromatographic separatum of enantiomersThe carbamate, ureido, and amide derivatives obtained without racemization from enantiomeric amines, alcohols, and carboxylic acids, respectively (equations T III), with this isocyanate are stable for months and are suitable for gas chromatographic separation using a polymeric chiral stationary phase (derived, for example, from L-valine-(S)-a-phenylethylamide). This methodology permits separation of chiral a- and /1-hydroxy acids and also N-mclhylnmino acids. 

The cyclohexene 121, which was readily accessible from the Diels-Alder reaction of methyl hexa-3,5-dienoate and 3,4-methylenedioxy-(3-nitrostyrene (108), served as the starting point for another formal total synthesis of ( )-lycorine (1) (Scheme 11) (113). In the event dissolving metal reduction of 121 with zinc followed by reduction of the intermediate cyclic hydroxamic acid with lithium diethoxyaluminum hydride provided the secondary amine 122. Transformation of 122 to the tetracyclic lactam 123 was achieved by sequential treatment with ethyl chloroformate and Bischler-Napieralski cyclization of the resulting carbamate with phosphorus oxychloride. Since attempts to effect cleanly the direct allylic oxidation of 123 to provide an intermediate suitable for subsequent elaboration to ( )-lycorine (1) were unsuccessful, a stepwise protocol was devised. Namely, addition of phenylselenyl bromide to 123 in acetic acid followed by hydrolysis of the intermediate acetates gave a mixture of two hydroxy se-lenides. Oxidative elimination of phenylselenous acid from the minor product afforded the allylic alcohol 124, whereas the major hydroxy selenide was resistant to oxidation and elimination. When 124 was treated with a small amount of acetic anhydride and sulfuric acid in acetic acid, the main product was the rearranged acetate 67, which had been previously converted to ( )-lycorine (108). 

There are several types of chiral derivatizing reagents commonly used depending on the functional group involved. For amines, the formation of an amide from reaction with an acyl halide [147,148], chloroformate reaction to form a carbamate [149], and reaction with isocyanate to form the corresponding urea are common reactions [150]. Carboxyl groups can be effectively esterified with chiral alcohols [151-153]. Isocynates have been used as reagents for enantiomer separation of amino acids, iV-methylamino acids, and 3-hydroxy acids [154]. In addition to the above-mentioned reactions, many others have been used in the formation of derivatives for use on a variety of packed and capillary columns. For a more comprehensive list, refer to References 155-159. 

Carbonate and carbamate derivatives, prepared from the reaction of alcohols and amines with phosgene and /V-hydroxy-2-thiopyridone, provide the corresponding alkoxyl radicals and aminyl radicals respectively, via radical decarboxylation [71-81]. For example, photolytic treatment of carbamate (57) derived from 4-pentenylamine generates the corresponding 4-pentenylaminyl radical, as shown in eq. 8.24. Under neutral conditions in the presence of tert-BuSH, a direct reduction product (A) of 4-pentenylaminyl radical is formed, while, in acidic conditions, cyclized product (C), pyrrolidine, via 5-exo-trig manner from 4-pentenylaminyl radical is formed. Under the latter conditions, the real reactive species is an electrophilic 4-pentenylaminium radical which rapidly cyclized via 5-exo-trig manner. 

Newcomb and coworkers have very elegantly demonstrated that N-hydroxypyridine-2-thione carbamates lc (PTOC carbamates, X = NR2) are directly analogous to the A-hydroxy-pyridine-2-thione esters la. They can be prepared readily from primary and secondary amines. Reaction of these carbamates in a radical chain process gives carbamoyl radicals that decarboxylate to give aminyl radicals, Scheme 40.66 71 In the... 

Diisocyanates are an important class of chemicals of commercial interest, which are frequently used in the manufacture of indoor materials. such as adhesives, coatings, foams and rubbers (Ulrich, 1989). In some types of particle board, the diisocyanates have replaced formaldehyde. Isocyanates are characterized by the electrophilic -N=C=0 group, which can easily react with molecules containing hydroxy groups, such as water or alcohols. On hydrolysis with water, primary amines are formed, while a reaction with alcohols leads to carbamates (urethanes). Polyurethane (PUR) products are then obtained from a polyaddition of diisocyanate and diol components. Compounds commonly used in industrial surface technology are 4,4 -diphenylmethane diisocyanate (MDI) and hexamethylene diisocyanate (HDI). The diisocyanate monomers are known as respiratory sensitizers and cause irritation of eyes, skin and mucous membrane. Therefore, polyisocyanates such as HDI-biuret and HDI-isocyanurate with a monomer content <0.5 % are used for industrial applications, and isocyanate monomers will not achieve high concentrations in ambient air. Nevertheless, it is desirable to measure even trace emissions from materials in private dwellings. 

Ajmaline (14) was chosen as a starting material because its total synthesis and absolute configuration were already established (14-16), and furthermore, the equilibrium isomer 17 from ajmaline chemically corresponds to the hypothetical intermediate 13. Ajmaline (14) was first converted into the hydrazone derivative by treatment with A,)V-dimethylhydrazine and a catalytic amount of sulfuric acid. After protection of the resulting secondary amine with methyl carbamate, the hydrazone was hydrolyzed with cop-per(II) chloride in aq. tetrahydrofuran (pH 7) to afford the aldehyde 19 in 75% yield. The hydroxy group in compound 19 was protected with the methoxyethoxymethyl (MEM) ether, and then bromine was selectively... 

Removal of the methoxymethyl groups from 43 with HCl, followed by protection of the secondary amine with benzyl chloroformate afforded the carbamate 9. Selective silylation of the 4-hydroxy group of 9 by treatment with 1.2 equiv of tert-butyldimethylsilyl chloride and 2.4 equiv of imidazole in DMF at room temperature for 1 h afforded the corresponding silyl ether as a single isomer in 80% yield that was subjected to acetylation at the C-3 hydroxyl group to afford the carbamate 11, which upon removal of the Cbz and TBDMS groups furnished 1. 

Release of compounds from polymer-bound carbamates has not to be performed via nucleophilic attack but can also be induced by the addition of acids like, for example, TFA in various concentrations. The released target compounds are either primary or secondary amines. The synthesis described in Scheme 34 has been recently published by DoUe et al. [183]. Synthesis of piperazines 227 has been conducted on a or-methylbenzyl resin 223 that has been activated with 4-NPCF and that has been fmther reacted with diethanolamine 224. After mesylation of the two resulting terminal hydroxy groups, reaction with a primary amine 226 and base gave immobilized piper-... 

Protection of a-Hydroxy Carbamates. Aminal formation from a-hydroxy carbamates also occurs using 2-MP, as illustrated in eq 7. ... 

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