Antibiotics (May 2024)

Genomic Analysis of <i>Kitasatospora setae</i> to Explore Its Biosynthetic Potential Regarding Secondary Metabolites

  • Yutong Xue,
  • Zhiyan Zhou,
  • Fangjian Feng,
  • Hang Zhao,
  • Shuangling Tan,
  • Jinling Li,
  • Sitong Wu,
  • Zhiran Ju,
  • Shan He,
  • Lijian Ding

DOI
https://doi.org/10.3390/antibiotics13050459
Journal volume & issue
Vol. 13, no. 5
p. 459

Abstract

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Actinomycetes have long been recognized as important sources of clinical antibiotics. However, the exploration of rare actinomycetes, despite their potential for producing bioactive molecules, has remained relatively limited compared to the extensively studied Streptomyces genus. The extensive investigation of Streptomyces species and their natural products has led to a diminished probability of discovering novel bioactive compounds from this group. Consequently, our research focus has shifted towards less explored actinomycetes, beyond Streptomyces, with particular emphasis on Kitasatospora setae (K. setae). The genome of K. setae was annotated and analyzed through whole-genome sequencing using multiple bio-informatics tools, revealing an 8.6 Mbp genome with a 74.42% G + C content. AntiSMASH analysis identified 40 putative biosynthetic gene clusters (BGCs), approximately half of which were recessive and unknown. Additionally, metabolomic mining utilizing mass spectrometry demonstrated the potential for this rare actinomycete to generate numerous bioactive compounds such as glycosides and macrolides, with bafilomycin being the major compound produced. Collectively, genomics- and metabolomics-based techniques confirmed K. setae’s potential as a bioactive secondary metabolite producer that is worthy of further exploration.

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