Bioprospecting of Actinobacterial Diversity and Antibacterial Secondary Metabolites from the Sediments of Four Saline Lakes on the Northern Tibetan Plateau.
Shao-Wei LiuXiao-Xu ZhaiDi LiuYu-Yu LiuLi-Ying SuiKe-Ke LuoQin YangFei-Na LiArina A NikandrovaArina N ImamutdinovaDmitrii A LukyanovIlya Andreevich OstermanPetr V SergievBen-Yin ZhangDe-Jun ZhangChun-Mei XueCheng-Hang SunPublished in: Microorganisms (2023)
The Tibetan Plateau, known as the "Roof of the World" and "The Third Pole", harbors numerous saline lakes primarily distributed in the Northern Tibetan Plateau. However, the challenging conditions of high altitude, low oxygen level, and harsh climate have limited investigations into the actinobacteria from these saline lakes. This study focuses on investigating the biodiversity and bioactive secondary metabolites of cultivable actinobacteria isolated from the sediments of four saline lakes on the Northern Tibetan Plateau. A total of 255 actinobacterial strains affiliated with 21 genera in 12 families of 7 orders were recovered by using the pure culture technique and 16S rRNA gene phylogenetic analysis. To facilitate a high-throughput bioactivity evaluation, 192 isolates underwent OSMAC cultivation in a miniaturized 24-well microbioreactor system (MATRIX cultivation). The antibacterial activity of crude extracts was then evaluated in a 96-well plate antibacterial assay. Forty-six strains demonstrated antagonistic effects against at least one tested pathogen, and their underlying antibacterial mechanisms were further investigated through a dual-fluorescent reporter assay (pDualrep2). Two Streptomyces strains (378 and 549) that produce compounds triggering DNA damage were prioritized for subsequent chemical investigations. Metabolomics profiling involving HPLC-UV/vis, UPLC-QTOF-MS/MS, and molecular networking identified three types of bioactive metabolites belonging to the aromatic polyketide family, i.e., cosmomycin, kidamycin, and hedamycin. In-depth analysis of the metabolomic data unveiled some potentially novel anthracycline compounds. A genome mining study based on the whole-genome sequences of strains 378 and 549 identified gene clusters potentially responsible for cosmomycin and kidamycin biosynthesis. This work highlights the effectiveness of combining metabolomic and genomic approaches to rapidly identify bioactive chemicals within microbial extracts. The saline lakes on the Northern Tibetan Plateau present prospective sources for discovering novel actinobacteria and biologically active compounds.
Keyphrases
- ms ms
- high throughput
- escherichia coli
- dna damage
- silver nanoparticles
- copy number
- liquid chromatography tandem mass spectrometry
- genome wide
- heavy metals
- oxidative stress
- randomized controlled trial
- mass spectrometry
- single cell
- microbial community
- climate change
- simultaneous determination
- quantum dots
- ultra high performance liquid chromatography
- electronic health record
- crispr cas
- machine learning
- transcription factor
- high performance liquid chromatography
- cell wall
- atomic force microscopy
- polycyclic aromatic hydrocarbons
- clinical evaluation
- genome wide identification