反応 #2069935

ord-286ab06f04984a259b91a741c5edd0f5

反応方程式

[Na+].[OH-]
NaOH
[C-]#N.[Na+]
NaCN
CCOC(=O)C[C@H](O)CCl
ethyl (S)-4-chloro-3-hydroxybutyrate
CCOC(=O)C[C@H](O)CC#N
ethyl (R)-4-cyano-3-hydroxybutyrate
収率 67.1%

溶媒

反応条件

温度
60°CELSIUS
詳細条件
See reaction.notes.procedure_details.

後処理

  1. 1
    workup.ADDITIONconnected to an automatic titrater by a pH electrode and a feeding tube for addition of base
  2. 2
    その他was set to 40° C
  3. 3
    workup.ADDITIONCelite™ (16 g) was added to the flask, which
  4. 4
    その他is bubbled into 5M NaOH (200 mL)
  5. 5
    その他to remove HCN
  6. 6
    workup.WAITAfter 1 hour
  7. 7
    workup.ADDITIONa submerged air bubbler was added to the solution
  8. 8
    その他the removal of the HCN
  9. 9
    workup.WAITAfter 3 hours
  10. 10
    温度to cool to room temperature
  11. 11
    ろ過filtered through a Celite™ pad
  12. 12
    抽出The filtrate was extracted with butyl acetate (3×800 mL)
  13. 13
    ろ過the combined organic layers filtered through a pad of activated charcoal
  14. 14
    その他The solvent was removed under vacuum by rotary evaporation

実験手順

To a 3-necked jacketed 3L flask equipped with a mechanical stirrer and connected to an automatic titrater by a pH electrode and a feeding tube for addition of base, was charged H2O (1200 mL), NaCN (37.25 g) and NaH2PO4 (125 g) to bring the solution to pH 7. The water circulator was set to 40° C. After 10 minutes, halohydrin dehalogenase of SEQ ID NO: 32 as cell lysate (250 mL) was added. The reaction mixture was allowed to stir for 5 minutes. Using an addition funnel, ethyl (S)-4-chloro-3-hydroxybutyrate (45 g) was slowly added over 1 hour. The pH was maintained at 7 by the automatic titrater by the addition of 10 M NaOH (27 mL) over 17 hours. Subsequently, gas chromatography of a reaction sample showed complete conversion to product. Celite™ (16 g) was added to the flask, which was then connected to a diaphragm pump, whose exhaust is bubbled into 5M NaOH (200 mL), to remove HCN. The mixture was heated to 60° C. under 100 mm Hg pressure. After 1 hour, a submerged air bubbler was added to the solution to aid the removal of the HCN. After 3 hours, an HCN detector indicated less than 5 ppm HCN in the off-gas. The mixture was allowed to cool to room temperature, then filtered through a Celite™ pad. The filtrate was extracted with butyl acetate (3×800 mL) and the combined organic layers filtered through a pad of activated charcoal. The solvent was removed under vacuum by rotary evaporation to provide 28.5 g of ethyl (R)-4-cyano-3-hydroxybutyrate. The purity was 98% (w/w) by HPLC and the enantiomeric excess was >99% (by chiral GC, the S enantiomer was undetectable). As used herein, the term “enantiomeric excess” or “e.e.” refers to the absolute difference between the mole or weight fractions of major (F(+)) and minor (F(−)) enantiomers (i.e., |F(+)−F(−)|), where F(+)+F(−)=1. Percent e.e. is 100×|F(+)−F(−)|. Enantiomeric composition can be readily characterized by using the gas chromatography method described in Example 6, above, and using methods that are known in the art.

出典

DOI: 10.6084/m9.figshare.5104873.v1特許: US07541171B2uspto-grants-2009_06