Université de Toulouse; INSA, UPS, INP, LISBP, F-31077 Toulouse, France.
J Biotechnol. 2011 Nov 10;156(2):117-24. doi: 10.1016/j.jbiotec.2011.06.035. Epub 2011 Jul 6.
Lip2 lipase from Yarrowia lipolytica is a very promising lipase with many potential applications (e.g. resolution of racemic mixtures, production of fine chemicals). Unfortunately this potential is impeded by a very low thermostability for temperatures higher than 40°C. Error-prone PCR and screening of the library in a high-performance yeast expression system (Y. lipolytica) enabled a thermostable variant to be identified. This variant presents only one mutation, the free cysteine 244 is changed into an alanine. At 60°C, the half-life time of the purified variant was 127-fold increased compared to the WT enzyme (from 1.5 min to 3 h). Saturation mutagenesis experiment at position 244 demonstrated that the presence of a cysteine at this position was responsible for the thermal denaturation. It was demonstrated that WT Lip2 and the thermostable variant are both inactivated through aggregation mechanisms, but that the kinetics and the nature of the aggregation were different. For the WT enzyme, rapid intermolecular disulphide bridge interchanges triggered by the free cysteine 244 mediates aggregation. For the variant C244A, aggregation still occurred but much slower than for the WT lipase and was mainly driven by hydrophobic forces.
解脂耶氏酵母的 Lip2 脂肪酶是一种极具应用潜力的脂肪酶(例如:外消旋混合物的拆分、精细化学品的生产)。然而,其在 40°C 以上的温度下稳定性非常低,这极大地限制了其应用。易错 PCR 和在高性能酵母表达系统(解脂耶氏酵母)中进行文库筛选,使得能够鉴定出一种耐热变体。该变体仅存在一个突变,即游离半胱氨酸 244 被丙氨酸取代。与野生型酶相比,在 60°C 下,该变体的半衰期延长了 127 倍(从 1.5 分钟增加到 3 小时)。在位置 244 进行的饱和突变实验表明,该位置上的半胱氨酸的存在是导致热变性的原因。研究表明,野生型 Lip2 和耐热变体都是通过聚集机制失活的,但聚集的动力学和性质不同。对于野生型酶,由游离半胱氨酸 244 介导的快速分子间二硫键交换触发了聚集。对于 C244A 变体,尽管仍然发生聚集,但速度比野生型脂肪酶慢得多,主要由疏水作用力驱动。
