DOI

  • Tiago Leao
  • Guilherme Castelão
  • Anton Korobeynikov
  • Emily A. Monroe
  • Sheila Podell
  • Evgenia Glukhov
  • Eric E. Allen
  • William H. Gerwick
  • Lena Gerwick

Cyanobacteria are major sources of oxygen, nitrogen, and carbon in nature. In addition to the importance of their primary metabolism, some cyanobacteria are prolific producers of unique and bioactive secondary metabolites. Chemical investigations of the cyanobacterial genus Moorea have resulted in the isolation of over 190 compounds in the last two decades. However, preliminary genomic analysis has suggested that genome-guided approaches can enable the discovery of novel compounds from even well-studied Moorea strains, highlighting the importance of obtaining complete genomes. We report a complete genome of a filamentous tropical marine cyanobacterium, Moorea producens PAL, which reveals that about one-fifth of its genome is devoted to production of secondary metabolites, an impressive four times the cyanobacterial average. Moreover, possession of the complete PAL genome has allowed improvement to the assembly of three other Moorea draft genomes. Comparative genomics revealed that they are remarkably similar to one another, despite their differences in geography,morphology, and secondary metabolite profiles. Gene cluster networking highlights that this genus is distinctive among cyanobacteria, not only in the number of secondary metabolite pathways but also in the content of many pathways, which are potentially distinct from all other bacterial gene clusters to date. These findings portend that future genome-guided secondary metabolite discovery and isolation efforts should be highly productive.

Original languageEnglish
Pages (from-to)3198-3203
Number of pages6
JournalProceedings of the National Academy of Sciences of the United States of America
Volume114
Issue number12
DOIs
StatePublished - 21 Mar 2017

    Research areas

  • Biosynthetic gene clusters, Gene cluster network, Genome comparison, Heterocyst glycolipids, Tropical marine cyanobacteria

    Scopus subject areas

  • General

ID: 9143295