Reaktion #2394396

ord-51fd6807d5ea40d48defb46740d5cf41

Reaktionsbedingungen

Detaillierte Bedingungen
See reaction.notes.procedure_details.

Aufarbeitung

  1. 1
    Sonstigefor stereoselective hydrolysis by the D-hydantoinase enzyme
  2. 2
    SonstigeIn this way, the reaction

Vorschrift

When this racemization occurs in the presence of a D-hydantoinase, an equilibrium is established between hydantoins possessing the R and S absolute configurations at C-5 of the hydantoin. For example, an equilibrium would be established between L-isoleucine hydantoin and D-allo-isoleucine hydantoin; similarly an equilibrium would be established between L-allo-isoleucine hydantoin and D-isoleucine hydantoin. When a mixture of L-isoleucine hydantoin and D-allo-isoleucine hydantoin is contacted with a D-hydantoinase, the D-allo-isoleucine hydantoin is selectively hydrolyzed by the D-hydantoinase to form the N-carbamoyl-D-allo-isoleucine. As the D-allo-isoleucine hydantoin is depleted from the mixture by D-hydantoinase-catalyzed hydrolysis, the equilibrium between the L-isoleucine hydantoin and the D-allo-isoleucine hydantoin is re-established under the epimerizing conditions, continuously generating additional D-allo-isoleucine hydantoin for stereoselective hydrolysis by the D-hydantoinase enzyme. This continual supply of the hydantoin of D-allo-isoleucine occurs during the course of the reaction until substantially all of the hydantoin has been converted to N-carbamoyl-D-allo-isoleucine. In this way, the reaction can be carried out to substantial completion. By the term “substantial completion” is meant that at least about 75%, preferably at least about 85%, and more preferably at least about 95%, of the mixture of L-isoleucine hydantoin and D-allo-isoleucine hydantoin is converted to N-carbamoyl-D-allo-isoleucine. The yield of N-carbamoyl-D-allo-isoleucine produced by the method of the present invention can approach 100% of theoretical, given sufficient reaction time and/or sufficient hydantoinase enzyme. Similarly, when a mixture of D-isoleucine hydantoin and L-allo-isoleucine hydantoin is contacted with a D-hydantoinase, the D-isoleucine hydantoin is selectively hydrolyzed by the D-hydantoinase to form the N-carbamoyl-D-isoleucine. As the D-isoleucine hydantoin is depleted from the mixture by D-hydantoinase-catalyzed hydrolysis, the equilibrium between the L-allo-isoleucine hydantoin and the D-isoleucine hydantoin is re-established under the epimerizing conditions, continuously generating additional D-isoleucine hydantoin for stereoselective hydrolysis by the D-hydantoinase enzyme. This continual supply of the hydantoin of D-isoleucine occurs during the course of the reaction until substantially all of the mixture of D-isoleucine hydantoin and L-allo-isoleucine hydantoin has been converted to N-carbamoyl-D-isoleucine. In this way, the reaction can be carried out to substantial completion so that the mixture of D-isoleucine hydantoin and L-allo-isoleucine hydantoin is converted almost completely to N-carbamoyl-D-allo-isoleucine. In similar fashion using an L-hydantoinase, L-allo-isoleucine can be produced from a mixture of D-isoleucine hydantoin and L-allo-isoleucine hydantoin, and L-isoleucine can be produced form a mixture of D-allo-isoleucine hydantoin and L-isoleucine hydantoin.

Quelle

DOI: 10.6084/m9.figshare.5104873.v1Patent: US06830904B2uspto-grants-2004_12