Alkoxycarbonylation reagent

Treating the iminothiazoles with acyl chlorides yields the aminium salts (415>, which are acylation and alkoxycarbonylation reagents (Scheme 237) (731). 

Other Alkoxycarbonylating Reagents Prepared from 2-Hydroxyimino-2-phenylacetonitrile... 

As alternatives to 4-nitrophenyl chloroformate, carbonyl diimidazole [100-102] or di-A-succinimidyl carbonate [103,104] can be used to convert polymeric alcohols into alkoxycarbonylating reagents suitable for the preparation of support-bound carbamates. Polystyrene-bound alkoxycarbonyl imidazole is less reactive than the corresponding 4-nitrophenyl carbonate, and sometimes requires heating to undergo reaction with amines. Additional activation of these imidazolides can be achieved by N-methylation (Entry 9, Table 14.7). 

Carbamates can also be prepared by treating support-bound amines with alkoxycarbonylating reagents such as chloroformates or aryl carbonates. Chloroformates or dicarbonates (e.g. Boc20) should not be used in large excess for the alkoxycarbonyla-tion of primary amines because double derivatization can occur [119]. Less reactive reagents include 4-nitrophenyl carbonates and A-succinimidyl carbonates (Entries 2 and 3, Table 14.8). 

Table 14.7. Preparation of carbamates from support-bound alcohols or alkoxycarbonylating reagents.

Enantiomerically pure aminoalcohols, which are readily available by reduction of a-amino acids, can be converted into alkoxycarbonylating reagents suitable for the solid-phase synthesis of oligocarbamates (Figure 16.26). Particularly convenient alkoxycarbonylating reagents are 4-nitrophenyl carbonates, which can be prepared from alcohols and 4-nitrophenyl chloroformate, and which react smoothly with aliphatic primary or secondary amines to yield the corresponding carbamates. 

A variant of these reactions was optimized based on the Hosomi-Miyaura borylation of a,P-unsaturated carbonyl compounds with nucleophilic boryl copper, providing 2-alkoxycarbonyl (as well as 2-acyl- and 2-cyano) allylboronates such as 40 in high stereoselectivity (Equation 22) [60]. The resulting 2-alkoxycarbonyl reagents react with aldehydes to provide a-methylene-y-butyrolactones. 

Heml997 Hem indez, A.S. and Hodges, J.C., Solid-Supported tert-Alkoxycarbonylation Reagents for Anchoring of Amines During Solid Phase Organic Synthesis, J. Org. Chem., 62 (1997) 3153-3157. 

Alkyltriphenylphosphonium halides are only weakly acidic, and a strong base must be used for deprotonation. Possibilities include organolithium reagents, the anion of dimethyl sulfoxide, and amide ion or substituted amide anions, such as LDA or NaHMDS. The ylides are not normally isolated, so the reaction is carried out either with the carbonyl compound present or with it added immediately after ylide formation. Ylides with nonpolar substituents, e.g., R = H, alkyl, aryl, are quite reactive toward both ketones and aldehydes. Ylides having an a-EWG substituent, such as alkoxycarbonyl or acyl, are less reactive and are called stabilized ylides. 

FIGURE 6.30 Approaches for the synthesis of monosubstituted trifunctional amino acids. (A) Monoesterification of dicarboxylic acids. (B) Aa-Alkoxycarbonylation of lysine through the e-benzylidene derivative [Bezas Zervas, 1963]. (C) SelectiveN -detritylation of ditrityl derivatives.138 (D) A- AI ko x y met hy 1 at 10 n of histidine by displacement of AP-substituents.137 Cbz-His(CH2OR)-OMe are obtained from Cbz-His(xAc)-OMe. = Acylating reagent. 

There are a few reports on the amination of a-metallated carbonyl compounds with 0-(arenesulfonyl)hydroxylamine-type reagents. However, in recent years there has been substantial progress in Af-(alkoxycarbonyl) 0-(arenesulfonyl)hydroxylamine [alkyl N-(arenesulfonyloxy)carbamate]-type reagents for the amination of enolates and eniminates. 

The same group expanded their study to see how well nitrenes derived from N-(alkoxycarbonyl) 0-(arenesulfonyl)hydroxyfamines 3i-o perform in a-amination of a,fi-unsaturated carljonyl compounds by aziridination. Good results are obtained when a,-unsaturated carboxylates and y-lactones are reacted with the amination reagents 3k, 31 and 3n in the presence of CaO. 

The parent 2(3/i/)-oxazolone moiety functions as a bifunctional leaving group when carboxyl groups are activated for acylations and condensations, similar to other five- and six-membered heterocycles such as imidazole, triazole, and 2-pyridinethiol. The excellent leaving ability of a 2(3//)-oxazolone moiety has led to the development of versatile reagents. Thus, 3-acyl- and 3-alkoxycarbonyl-2(3//)-oxazolones serve as ready-to-use -type agents for the regioselective and chemoselective N-protection of amino alcohols, amino phenols and polyamines. 

In a similar fashion, palladium-catalyzed alkoxycarbonylation of 54 was effective in producing pyrimdine esters 55 <99T405>. It was noted that dppf along with the use of the alcohols as solvents (rather than solely as reagents) was required for optimal conversion. 

Tetrahydroindolizine derivatives have been obtained from 2-alkoxycarbonyl-methylenpyrrolidines and 2-cyanomethylenpyrrolidines respectively using different reagents (Scheme 35) <78AHC(23)103>. 

Especially the a-methoxylation or acetoxylation of amides like A-acyl and N-alkoxycarbonyl derivatives of amines, amino acids, and peptides leads to the synthetically very useful N,0-acetals, which are powerful amidoalkylation reagents [26] ... 

Reformatsky first introduced electron-withdrawing substituents on the a-carbon of an organozinc halide, leading to the more reactive and thermally stable a-(alkoxycarbonyl)alkylzinc halides (123).107 Typically these reagents react with aldehydes or ketones to afford 3-hydroxy esters while nitriles afford 3-keto esters (Blaise reaction),l07b>c but 1,4-conjugate additions to select a,3 unsaturated ketones are precedented (Section 1.2.2.2.2). 

The Lewis acid catalyzed conjugate addition of allylsilanes (140) to (142) and allylstannanes (154) and (155) to ot,0-enones, described by Sakurai,68a,68b is highly efficient and experimentally simple in contrast to the allylcuprate additions. Various substituents can be incorporated into the allylsilanes (allylstannanes), e.g. alkoxy, alkoxycarbonyl and halogen, some of which are incompatible with cuprate reagents 69 In addition, Heathcock and Yamamoto report that diastereoselectivity is correlated to the alkene geometry of both the allylmetals and the acceptor units for example, allylation of ( )-enones (143) and (146) affords predominantly the syn adducts (144) and (147), while (Z)-enone (149) gives predominantly the anti adduct (150 Scheme 25).680 On the other hand, with cyclohexen-2-one the (Z)-silane (141) affords predominantly the threo adduct (152), while (142) affords erythro adduct (ISS).686 The more reactive allylstannanes (154) and (155) also afford similar diastereoselectivity.68e,f... 

---