Kananavičiūtė Rūta, Čitavičius Donaldas
Department of Microbiology and Biotechnology, Faculty of Natural Sciences, Vilnius University, M. K. Ciurlionio 21/27, Vilnius LT-03101, Lithuania.
Department of Microbiology and Biotechnology, Faculty of Natural Sciences, Vilnius University, M. K. Ciurlionio 21/27, Vilnius LT-03101, Lithuania.
J Microbiol Methods. 2015 Apr;111:31-9. doi: 10.1016/j.mimet.2015.02.002. Epub 2015 Feb 3.
Members of the genus Geobacillus are thermophiles that are of great biotechnological importance, since they are sources of many thermostable enzymes. Because of their metabolic versatility, geobacilli can be used as whole-cell catalysts in processes such as bioconversion and bioremediation. The effective employment of Geobacillus spp. requires the development of reliable methods for genetic engineering of these bacteria. Currently, genetic manipulation tools and protocols are under rapid development. However, there are several convenient cloning vectors, some of which replicate autonomously, while others are suitable for the genetic modification of chromosomal genes. Gene expression systems are also intensively studied. Combining these tools together with proper techniques for DNA transfer, some Geobacillus strains were shown to be valuable producers of recombinant proteins and industrially important biochemicals, such as ethanol or isobutanol. This review encompasses the progress made in the genetic engineering of Geobacillus spp. and surveys the vectors and transformation methods that are available for this genus.
嗜热栖热菌属的成员是嗜热菌,具有重要的生物技术意义,因为它们是许多耐热酶的来源。由于其代谢的多功能性,嗜热栖热菌可作为全细胞催化剂用于生物转化和生物修复等过程。有效利用嗜热栖热菌需要开发可靠的基因工程方法。目前,基因操作工具和方案正在迅速发展。然而,有几种方便的克隆载体,其中一些能自主复制,而另一些则适用于染色体基因的遗传修饰。基因表达系统也在深入研究。将这些工具与合适的DNA转移技术相结合,一些嗜热栖热菌菌株已被证明是重组蛋白和工业上重要的生化物质(如乙醇或异丁醇)的有价值的生产者。本综述涵盖了嗜热栖热菌基因工程取得的进展,并调查了该属可用的载体和转化方法。