Title : Ester synthesis at extraordinarily low temperature of -3 degrees C by modified lipase in benzene - Takahashi_1985_Biochem.Int_10_627 |
Author(s) : Takahashi K , Yoshimoto T , Tamaura Y , Saito Y , Inada Y |
Ref : Biochemistry International , 10 :627 , 1985 |
Abstract :
The lipoprotein lipase from Pseudomonas fluorescens was modified with 2,4-bis(O-methoxypolyethylene glycol)-6-chloro-s-triazine. The modified lipase in which 55% of the amino groups in the enzyme molecule were coupled with polyethylene glycol was found to be soluble in benzene and catalyzed the reactions of ester synthesis, ester exchange, aminolysis and ester hydrolysis in benzene. The modified lipase had an extraordinary temperature-dependency: enzymic activity for methyl laurate synthesis from methyl alcohol and lauric acid increased with decreasing temperature and attained the maximum at the extremely low temperature of -3 degrees C. The optimum temperature for hydrolysis of methyl laurate was as low as -4 degrees C. |
PubMedSearch : Takahashi_1985_Biochem.Int_10_627 |
PubMedID: 3927919 |
Takahashi K, Yoshimoto T, Tamaura Y, Saito Y, Inada Y (1985)
Ester synthesis at extraordinarily low temperature of -3 degrees C by modified lipase in benzene
Biochemistry International
10 :627
Takahashi K, Yoshimoto T, Tamaura Y, Saito Y, Inada Y (1985)
Biochemistry International
10 :627