Biochemical Engineering, DECHEMA Research Institute, Theodor-Heuss-Allee 25, 60486, Frankfurt, Germany.
J Ind Microbiol Biotechnol. 2012 Dec;39(12):1761-9. doi: 10.1007/s10295-012-1181-2. Epub 2012 Aug 18.
Linalool oxides are of interest to the flavour industry because of their lavender notes. Corynespora cassiicola DSM 62475 has been identified recently as a production organism because of high stereoselectivity and promising productivities [Mirata et al. (2008) J Agric Food Chem 56(9):3287-3296]. In this work, the stereochemistry of this biotransformation was further investigated. Predominantly (2R)-configured linalool oxide enantiomers were produced from (R)-(-)-linalool. Comparative investigations with racemic linalool suggest that predominantly (2S)-configured derivatives can be expected by using (S)-(+)-configured substrate. Substrate and product inhibited growth even at low concentrations (200 mg l⁻¹). To avoid toxic effects and supply sufficient substrates, a substrate feeding product removal (SFPR) system based on hydrophobic adsorbers was established. Applying SFPR, productivity on the shake flask scale was increased from 80 to 490 mg l⁻¹ day⁻¹. Process optimisation increased productivity to 920 mg l⁻¹ day⁻¹ in a bioreactor with an overall product concentration of 4.600 mg l⁻¹ linalool oxides.
芳樟醇氧化物因其具有薰衣草香味而引起了香料行业的兴趣。最近,由于具有高立体选择性和有前景的产率,棒孢霉(Corynespora cassiicola)DSM 62475 已被确定为生产菌[Mirata 等人,(2008)J Agric Food Chem 56(9):3287-3296]。在这项工作中,进一步研究了这种生物转化的立体化学。主要(2R)构型的芳樟醇氧化物对映体是由(R)-(-)-芳樟醇生成的。与外消旋芳樟醇的比较研究表明,使用(S)-(+)构型的底物,可以预期主要生成(2S)构型的衍生物。即使在低浓度(200mg/L)下,底物和产物也会抑制生长。为了避免毒性作用并供应足够的底物,建立了基于疏水性吸附剂的底物进料产物去除(SFPR)系统。通过应用 SFPR,在摇瓶规模上的生产力从 80 增加到 490mg/L/天。通过过程优化,在生物反应器中生产力提高到 920mg/L/天,总体产物浓度为 4600mg/L 芳樟醇氧化物。
