Song Adelene A, Abdullah Janna Ong, Abdullah Mohd P, Shafee Norazizah, Othman Roohaida, Noor Normah Mohd, Rahim Raha A
Department of Cell and Molecular Biology, Faculty of Biotechnology and Biomolecular Sciences, Universiti Putra Malaysia, Serdang, Selangor Darul Ehsan, Malaysia.
FEMS Microbiol Lett. 2014 Jun;355(2):177-84. doi: 10.1111/1574-6968.12469. Epub 2014 Jun 4.
Isoprenoids are a large, diverse group of secondary metabolites which has recently raised a renewed research interest due to genetic engineering advances, allowing specific isoprenoids to be produced and characterized in heterologous hosts. Many researches on metabolic engineering of heterologous hosts for increased isoprenoid production are focussed on Escherichia coli and yeasts. E. coli, as most prokaryotes, use the 2-C-methyl-d-erythritol-4-phosphate (MEP) pathway for isoprenoid production. Yeasts on the other hand, use the mevalonate pathway which is commonly found in eukaryotes. However, Lactococcus lactis is an attractive alternative host for heterologous isoprenoid production. Apart from being food-grade, this Gram-positive prokaryote uses the mevalonate pathway for isoprenoid production instead of the MEP pathway. Previous studies have shown that L. lactis is able to produce sesquiterpenes through heterologous expression of plant sesquiterpene synthases. In this work, we analysed the gene expression of the lactococcal mevalonate pathway through RT-qPCR to successfully engineer L. lactis as an efficient host for isoprenoid production. We then overexpressed the mvk gene singly or co-expressed with the mvaA gene as an attempt to increase β-sesquiphellandrene production in L. lactis. It was observed that co-expression of mvk with mvaA doubled the amount of β-sesquiphellandrene produced.
类异戊二烯是一大类多样的次生代谢产物,由于基因工程的进展,最近重新引发了研究兴趣,这使得特定的类异戊二烯能够在异源宿主中产生并进行表征。许多关于异源宿主代谢工程以提高类异戊二烯产量的研究都集中在大肠杆菌和酵母上。与大多数原核生物一样,大肠杆菌利用2-C-甲基-D-赤藓糖醇-4-磷酸(MEP)途径进行类异戊二烯的生产。另一方面,酵母利用真核生物中常见的甲羟戊酸途径。然而,乳酸乳球菌是异源类异戊二烯生产的一个有吸引力的替代宿主。除了是食品级的之外,这种革兰氏阳性原核生物利用甲羟戊酸途径而不是MEP途径进行类异戊二烯的生产。先前的研究表明,乳酸乳球菌能够通过植物倍半萜合酶的异源表达产生倍半萜。在这项工作中,我们通过RT-qPCR分析了乳酸乳球菌甲羟戊酸途径的基因表达,以成功地将乳酸乳球菌工程改造为类异戊二烯生产的高效宿主。然后,我们单独过表达mvk基因或与mvaA基因共表达,试图增加乳酸乳球菌中β-倍半水芹烯的产量。观察到mvk与mvaA的共表达使产生的β-倍半水芹烯量增加了一倍。
