Bucherer-Bergs

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Synthesis from Aldehydes and Ketones. Treatment of aldehydes and ketones with potassium cyanide and ammonium carbonate gives hydantoias ia a oae-pot procedure (Bucherer-Bergs reactioa) that proceeds through a complex mechanism (69). Some derivatives, like oximes, semicarbazones, thiosemicarbazones, and others, are also suitable startiag materials. The Bucherer-Bergs and Read hydantoia syntheses give epimeric products when appHed to cycloalkanones, which is of importance ia the stereoselective syathesis of amino acids (69,70). 

Synthesis from Thiohydantoins. A modification (71) of the Bucherer-Bergs reaction consisting of treatment of an aldehyde or ketone with carbon disulfide, ammonium chloride, and sodium cyanide affords 2,4-dithiohydantoias (19). 4-Thiohydantoias (20) are available from reaction of amino nitriles with carbon disulfide (72). Compounds (19) and (20) can be transformed iato hydantoias. 

The first improvement of the Bucherer-Bergs reaction was the Bucherer-Lieb variation using the diluted alcoholic solution as described at the end of section 7.2.2. The Bucherer-Lieb variation is possibly the most popular process for synthesizing hydantoins. Another notable variation is the Henze modification using fusing acetamide as the solvent in place of water, benzene or 50% alcohol. Recently, ultrasound-promoted hydantoin synthesis has been reported to accelerate the reaction. 

In at least one case, the standard Bucherer-Bergs conditions gave rise to oxazole rather hydantoin. Specifically, when 5-benzyloxy-pyridine-2-carbaldehyde (11) was treated with potassium cyanide, ammonium chloride, and ammonium carbonate in boiling ethanol/water, 5-amino-oxazol-2-ol 12 was obtained. Subsequent heating of oxazole 12 with acetic acid at reflux overnight then produced the Bucherer-Bergs product, hydantoin 13. ... 

Notably, some substrates possess enough steric bias to exert sterospecificity for the Bucherer-Bergs reaction. For instance, ketone 21, derived from enone 20 via a Corey-Chaykovsky reaction, underwent a Bucherer-Bergs reaction to fashion spirohydantoin 22 as a single isomer. 

The other most important synthetic utility of the Bucherer-Bergs reaction is the preparation of amino acids from the hydrolysis of hydantoins. When carbonyl 1 was symmetrical, the Henze modification gave hydantoin 2, which was then hydrolyzed to the... 

At the other extreme of the stereoselectivity spectrum of the Bucherer-Bergs reaction, the steric bias is sometimes not powerful enough to exert any selectivity at all, as exemplified by the conversion of 37 — 38. " Amino acid 38 was produced as a 1 1 mixture of two diastereomers. 

In most cases, however, many substrates give a mixture of stereoisomers with a certain degree of stereoselectivity. When ketone 39 was treated with potassium cyanide and ammonium carbonate in ethanol/water, a mixture of epimeric hydantoins 40 and 41 were isolated.Similarly, the Bucherer-Bergs reaction of ketone 42 gave rise to a... 

In summary, the Bucherer-Bergs reaction converts aldehydes or ketones to the corresponding hydantoins. It is often carried out by treating the carbonyl compounds with potassium cyanide and ammonium carbonate in 50% aqueous ethanol. The resulting hydantoins, often of pharmacological importance, may also serve as the intermediates for amino acid synthesis. 

A variant of the Strecker synthesis is the Bucherer-Bergs reaction it gives better yields, and proceeds via formation of an intermediate hydantoin 5 ... 

Chemically synthesised D,L-hydantoins prepared from the corresponding aldehydes via die Bucherer Berg reaction are converted by the bacterial cells (Bacillus brevis), containing a D-spedfic hydantoinase, to a mixture of D-N-carbamoyl amino acid and L-hydantoin. The latter compound undergoes rapid and spontaneous racemisation under the conditions of the reaction, therefore, in principle 100% of the hydantoin is converted into the D-N-carbamoyl compound. The D-amino add is obtained after treatment of the D-N-carbamoyl compound with nitrous add. This process is operated on an industrial scale by the Japanese firm Kanegafuchi. 

This contrary stereochemistry in the Bucherer - Bergs reaction of camphor has been attributed to steric hindrance of e.w-attack of the cyanide ion on the intermediate imine. Normally, equatorial approach of the cyanide ion is preferred, giving the axial (t>Mr/o)-amino nitrile by kinetic control. This isomer is trapped under Bucherer-Bergs conditions via urea and hydan-toin formation. In the Strecker reaction, thermodynamic control of the amino nitrile formation leads to an excess of the more stable compound with an equatorial (e.w)-amino and an axial (endo)-cyano (or carboxylic) function13-17. 

Racemic hydantoins result from the reaction of carbonyl compounds with potassium cyanide and ammonium carbonate or the reaction of the corresponding cyanohydrins with ammonium carbonate (Bucherer-Bergs reaction). Hydantoins racemize readily under basic conditions or in the presence of hydantoin racemase, thus allowing DKR (Figure 6.43). Hydantoinases (EC 3.5.2.2), either isolated enzymes or whole microorganisms, catalyze the hydrolysis of five-substituted... 

In an attempt to form orally active penicillins unrelated to ampicillin, use was made of the fact that certain spiro a-aminoacids, such as 9, are well absorbed orally and transported like normal amino acids. Reaction of cyclohexanone with ammonium carbonate and KCN under the conditions of the Bucherer-Bergs reaction led to hydantoin 10. On acid hydrolysis, a-amino acid 11 resulted. Treatment with phosgene... 

The first MCR involving isocyanides (IMCR) was reported in 1921 with the Passerini reaction (P-3CR) [8], and over the years these reactions have become increasingly important and have been highlighted in several publications (for discussions, see below). Another older MCR which leads to (non-natural) a-amino acids is the Bucherer-Bergs reaction (BB-4CR), which was first reported in 1929 [9]. This type of transformation is closely related to the Strecker reaction, with C02 employed as a fourth component. 

The scope of the reaction depends on the availability of the starting aldehyde (or ketone). A drawback is the toxicity of the hydrogen cyanide used as reactant. A variant of the Strecker synthesis is the Bucherer-Bergs reaction it gives better yields, and proceeds via formation of an intermediate hydantoin 5 ... 

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