Jia Haiyan, Zhang Longmei, Wang Tongtong, Han Jin, Tang Hui, Zhang Liping
Engineering Laboratory of Microbial Breeding and Preservation of Hebei Province; Key Laboratory of Microbial Diversity Research and Application of Hebei Province; Key Discipline of Biological Engineering of Hebei Province, College of Life Sciences, Hebei University, Baoding 071002, PR China.
Microbiology (Reading). 2017 Aug;163(8):1148-1155. doi: 10.1099/mic.0.000501. Epub 2017 Jul 18.
Clustered regularly interspaced short palindromic repeats, associated proteins (CRISPR/Cas), has been developed into a powerful, targeted genome-editing tool in a wide variety of species. Here, we report an extensive investigation of the type II CRISPR/Cas9 system for targeted gene editing in Streptomyces rimosus. S. rimosus is used in the production of the antibiotic oxytetracycline, and its genome differs greatly from other species of the genus Streptomyces in the conserved chromosome terminal and core regions, which is of major production and scientific research value. The genes zwf2 and devB were chosen as target genes, and were edited separately via single-site mutations, double-site mutations and gene fragment disruptions. The single-site mutation guided by sgRNA-1 or sgRNA-2, respectively, involved GG changing to CA, GC changing to AT, and GG changing to CC. The double-site mutations guided by sgRNA-1 and sgRNA-2 included deletions and/or point mutations. Consistently, all mutations occurred in the gRNA sequence regions. Deletion mutations were characterized by the absence of eight bases, including three bases upstream of the PAM (protospacer adjacent motif) sequence, the PAM sequence itself and two bases downstream of the PAM sequence. A mutant (zwf2-devB-) with a high yield of oxytetracycline was successfully obtained, whose oxytetracycline level was increased by 36.8 % compared to the original strain. These results confirm that CRISPR/Cas9 can successfully serve as a useful targeted genome editing system in S. rimosus.
成簇规律间隔短回文重复序列及其相关蛋白(CRISPR/Cas)已发展成为一种强大的、可在多种物种中进行靶向基因组编辑的工具。在此,我们报告了对II型CRISPR/Cas9系统在龟裂链霉菌中进行靶向基因编辑的广泛研究。龟裂链霉菌用于生产抗生素土霉素,其基因组在保守的染色体末端和核心区域与链霉菌属的其他物种有很大差异,具有重要的生产和科研价值。选择zwf2和devB基因作为靶基因,并分别通过单位点突变、双位点突变和基因片段破坏进行编辑。分别由sgRNA-1或sgRNA-2引导的单位点突变包括GG变为CA、GC变为AT以及GG变为CC。由sgRNA-1和sgRNA-2引导的双位点突变包括缺失和/或点突变。一致地,所有突变都发生在gRNA序列区域。缺失突变的特征是缺少八个碱基,包括PAM(原间隔相邻基序)序列上游的三个碱基、PAM序列本身以及PAM序列下游的两个碱基。成功获得了一株土霉素高产突变体(zwf2-devB-),其土霉素水平比原始菌株提高了36.8%。这些结果证实CRISPR/Cas9可以成功地作为龟裂链霉菌中一种有用的靶向基因组编辑系统。
