| Title : Hydrogen-bonding-driven enantioselective resolution against the Kazlauskas rule to afford gamma-amino alcohols by Candida rugosa lipase - Min_2015_Chembiochem_16_77 |
| Author(s) : Min B , Park J , Sim YK , Jung S , Kim SH , Song JK , Kim BT , Park SY , Yun J , Park S , Lee H |
| Ref : Chembiochem , 16 :77 , 2015 |
|
Abstract :
Most lipases resolve secondary alcohols in accordance with the "Kazlauskas rule" to give the R enantiomers. In a similar manner to other lipases, Candida rugosa lipase (CRL) exhibits R enantioselectivity towards heptan-2-ol, although the enantiomeric ratio (E) is low (E=1.6). However, unexpected enantioselectivity (i.e., S enantioselectivity, E=58) of CRL towards 4-(tert-butoxycarbonylamino)butan-2-ol, which has a similar chain length to heptan-2-ol, has been observed. To develop a deeper understanding of the molecular basis for this unusual enantioselectivity, we have conducted a series of molecular modeling and substrate engineering experiments. The results of these computational and experimental analyses indicated that a hydrogen bond between the Ser450 residue and the nitrogen atom of the carbamate group is critical to stabilize the transition state of the S enantiomer. |
| PubMedSearch : Min_2015_Chembiochem_16_77 |
| PubMedID: 25477295 |
| Gene_locus related to this paper: canru-1lipa |
| Gene_locus | canru-1lipa |
Min B, Park J, Sim YK, Jung S, Kim SH, Song JK, Kim BT, Park SY, Yun J, Park S, Lee H (2015)
Hydrogen-bonding-driven enantioselective resolution against the Kazlauskas rule to afford gamma-amino alcohols by Candida rugosa lipase
Chembiochem
16 :77
Min B, Park J, Sim YK, Jung S, Kim SH, Song JK, Kim BT, Park SY, Yun J, Park S, Lee H (2015)
Chembiochem
16 :77