Carbamoylase hydrolysis enzymes

In many cases, the racemization of a substrate required for DKR is difficult As an example, the production of optically pure cc-amino acids, which are used as intermediates for pharmaceuticals, cosmetics, and as chiral synfhons in organic chemistry [31], may be discussed. One of the important methods of the synthesis of amino acids is the hydrolysis of the appropriate hydantoins. Racemic 5-substituted hydantoins 15 are easily available from aldehydes using a commonly known synthetic procedure (Scheme 5.10) [32]. In the next step, they are enantioselectively hydrolyzed by d- or L-specific hydantoinase and the resulting N-carbamoyl amino acids 16 are hydrolyzed to optically pure a-amino acid 17 by other enzymes, namely, L- or D-specific carbamoylase. This process was introduced in the 1970s for the production of L-amino acids 17 [33]. For many substrates, the racemization process is too slow and in order to increase its rate enzymes called racemases are used. In processes the three enzymes, racemase, hydantoinase, and carbamoylase, can be used simultaneously this enables the production of a-amino acids without isolation of intermediates and increases the yield and productivity. Unfortunately, the commercial application of this process is limited because it is based on L-selective hydantoin-hydrolyzing enzymes [34, 35]. For production of D-amino acid the enzymes of opposite stereoselectivity are required. A recent study indicates that the inversion of enantioselectivity of hydantoinase, the key enzyme in the... 

The enzymes of the nucleic acid metabolism are used for several industrial processes. Related to the nucleobase metabolism is the breakdown of hydantoins. The application of these enzymes on a large scale has recently been reviewed [85]. The first step in the breakdown of hydantoins is the hydrolysis of the imide bond. Most of the hydantoinases that catalyse this step are D-selective and they accept many non-natural substrates [78, 86]. The removal of the carbamoyl group can also be catalysed by an enzyme a carbamoylase. The D-selective carbamoylases show wide substrate specificity [85] and their stereoselectivity helps improving the overall enantioselectivity of the process [34, 78, 85]. Genetic modifications have made them industrially applicable [87]. Fortunately hydantoins racemise readily at pH >8 and additionally several racemases are known that can catalyze this process [85, 88]. This means that the hydrolysis of hydantoins is always a dynamic kinetic resolution with yields of up to 100% (Scheme 6.25). Since most hydantoinases are D-selective the industrial application has so far concentrated on D-amino acids. Since 1995 Kaneka Corporation has produced 2000 tons/year of D-p-hydroxyphenylglycine with a D-hydantoinase, a d-carbamoylase [87] and a base-catalysed racemisation [85, 89]. 

Natural cyclic amides such as 5,6-dihydrouracil, uracil and 5,6-dihydrothymine as well as hydantoin, 5-methylhydantoin and 5-hydroxymethylhydantoin are effective inducers for enzyme biosynthesis (for a more detailed review on induction experiments see reference13 ). In some cases, the dihydropyrimidinase (D-hydantoinase) is associated with an N-carbamoyl-D-amino acid amidohydrolase (D-carbamoylase) and a hydantoin racemase1301. The previously proposed identity of the D-N-carbamoylase with the p-ureidopropionase (E. C. 3.5.1.6), which was assumed to be responsible for the hydrolysis of N-carbamoyl-P-alanine (see Fig. 12.4-7) 131-351 is no longer valid since the investigations of Ogawa et al. on different aerobic bacteria showed that the... 

Recombinant whole cells in particular turned out to be very attractive for bio-transformations in which more than one recombinant enzyme is needed such as redox reactions with in situ cofactor regeneration or hydrolysis with mrdtiple enzymes. With respect to the latter one, the dynamic kinetic resolution of hy-dantoins by a whole-cell catalyst that simultaneously overexpresses a racemase, a hydantoinase and a carbamoylase is a popular and industrially relevant example (Scheme 2.8) [23,24]. These cells convert a racemic hydantoin (an easily accessible substrate) to the corresponding enantiomerically pure d- or L-amino add with both high conversion and enantioselectivity. 

Recently, the novel enzyme D-carbamoylase, which stereospecifically hydrolyzes iV-car-bamoyl-D-amino acids, was found in several bacteria [13,14]. Therefore, a sequence of two enzyme-catalyzed reactions, the D-stereospecific hydrolysis of DL-5-(p-hydroxy-phenyl)hydantoin and subsequent hydrolysis of the D-carbamoyl derivative to D-p-hydrox-... 

---