The efficient enzymatic synthesis of enantiopure 2,3-epoxypropanol (glycidol) has been achieved. The racemic glycidyl butyrate was successfully resolved by enzymatic hydrolysis using a strategy that combines different immobilization protocols and different experimental reaction conditions. A new enzyme (25 kDa lipase)—which is a lipase-like enzyme purified from the pancreatic porcine lipase (PPL) extract—immobilized on DEAE–Sepharose was selected as the optimal biocatalyst. The optimal results were obtained at pH 7, 25 °C and 10% dioxane using this biocatalyst and a very high enantioselectivity for the enzyme was displayed, obtaining both (R)-(-)-glycidyl butyrate and (R)-(+)-glycidol with enantiomeric excesses >99% (E >100). The hydrolysis of (R)-(-)-glycidyl butyrate produced pure (S)-(-)-glycidol.
Synthesis of enantiomerically pure glycidol via a fully enantioselective lipase-catalyzed resolution
TERRENI, MARCO;
2005-01-01
Abstract
The efficient enzymatic synthesis of enantiopure 2,3-epoxypropanol (glycidol) has been achieved. The racemic glycidyl butyrate was successfully resolved by enzymatic hydrolysis using a strategy that combines different immobilization protocols and different experimental reaction conditions. A new enzyme (25 kDa lipase)—which is a lipase-like enzyme purified from the pancreatic porcine lipase (PPL) extract—immobilized on DEAE–Sepharose was selected as the optimal biocatalyst. The optimal results were obtained at pH 7, 25 °C and 10% dioxane using this biocatalyst and a very high enantioselectivity for the enzyme was displayed, obtaining both (R)-(-)-glycidyl butyrate and (R)-(+)-glycidol with enantiomeric excesses >99% (E >100). The hydrolysis of (R)-(-)-glycidyl butyrate produced pure (S)-(-)-glycidol.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
