Kibret Moges, Guerrero-Garzón Jaime F, Urban Ernst, Zehl Martin, Wronski Valerie-Katharina, Rückert Christian, Busche Tobias, Kalinowski Jörn, Rollinger Judith M, Abate Dawit, Zotchev Sergey B
Microbial, Cellular and Molecular Biology Department, College of Natural Science, Addis Ababa University, Addis Ababa, Ethiopia.
Department of Pharmacognosy, University of Vienna, Vienna, Austria.
Front Microbiol. 2018 Jun 12;9:1270. doi: 10.3389/fmicb.2018.01270. eCollection 2018.
A total of 416 actinomycete cultures were isolated from various unique environments in Ethiopia and tested for bioactivity. Six isolates with pronounced antimicrobial activity were chosen for taxonomic identification and further investigation. Morphological and cultural properties of the isolates were found to be consistent with those of the genus , which was further confirmed by phylogenetic analysis based on 16S rRNA gene sequences. One of the isolates, designated sp. Go-475, which displayed potent activity against both pathogenic yeasts and Gram-positive bacteria, was chosen for further investigation. Metabolite profiles and bioactivity of Go-475 incubated on wheat bran-based solid and soya flour-based liquid media were compared using high-resolution LC-MS. This allowed identification of several known compounds, and suggested the ability of Go-475 to produce new secondary metabolites. Major anti-bacterial compounds were purified from liquid cultures of Go-475, and their structures elucidated by NMR and HRMS as 8-O-methyltetrangomycin and 8-O-methyltetrangulol. In addition, many potentially novel metabolites were detected, the majority of which were produced in solid media-based fermentation. The genome sequence of sp. Go-475 was obtained using a hybrid assembly approach of high quality Illumina short read and low quality Oxford Nanopore long read data. The complete linear chromosome of 8,570,609 bp, featuring a G+C content of 71.96%, contains 7,571 predicted coding sequences, 83 t(m)RNA genes, and six operons. Analysis of the genome for secondary metabolite biosynthesis gene clusters further confirmed potential of this isolate to synthesize chemically diverse natural products, and allowed to connect certain clusters with experimentally confirmed molecules.
从埃塞俄比亚的各种独特环境中总共分离出416株放线菌培养物,并对其进行生物活性测试。选择了6株具有显著抗菌活性的分离株进行分类鉴定和进一步研究。发现这些分离株的形态和培养特性与该属一致,基于16S rRNA基因序列的系统发育分析进一步证实了这一点。其中一株分离株,命名为链霉菌属sp. Go-475,对致病性酵母和革兰氏阳性菌均表现出强大活性,被选作进一步研究对象。使用高分辨率液相色谱-质谱联用技术比较了在基于麦麸的固体培养基和基于大豆粉的液体培养基上培养的Go-475的代谢产物谱和生物活性。这使得能够鉴定出几种已知化合物,并表明Go-475具有产生新的次级代谢产物的能力。从Go-475的液体培养物中纯化出主要抗菌化合物,并通过核磁共振和高分辨质谱确定其结构为8-O-甲基四珠菌素和8-O-甲基四珠醇。此外,还检测到许多潜在的新代谢产物,其中大多数是在基于固体培养基的发酵过程中产生的。使用高质量的Illumina短读长数据和低质量的牛津纳米孔长读长数据的混合组装方法获得了链霉菌属sp. Go-475的基因组序列。其完整的线性染色体长度为8,570,609 bp,G+C含量为71.96%,包含7,571个预测的编码序列、83个t(m)RNA基因和6个操纵子。对基因组中次级代谢产物生物合成基因簇的分析进一步证实了该分离株合成化学性质多样的天然产物的潜力,并能够将某些基因簇与实验证实的分子联系起来。
