Документы

  • spectrum.04353-22

    Конечная издательская версия, 1,78 MB, Документ PDF

DOI

  • Sophie Graffius
  • Jaime Felipe Guerrero Garzón
  • Martin Zehl
  • Petra Pjevac
  • Rasmus Rasmus Kirkegaard
  • Mathias Flieder
  • Alexander Loy
  • Thomas Rattei
  • Andrew Ostrovsky
  • Sergey B. Zotchev
ABSTRACT Marine and freshwater sponges harbor diverse communities of bacteria with vast potential to produce secondary metabolites that may play an important role in protecting the host from predators and infections. In this work, we initially used cultivation and metagenomics to investigate the microbial community of the freshwater sponge Spongilla lacustris collected in an Austrian lake. Representatives of 41 bacterial genera were isolated from the sponge sample and classified according to their 16S rRNA gene sequences. The genomes of 33 representative isolates and the 20 recovered metagenome-assembled genomes (MAGs) contained in total 306 secondary metabolite biosynthesis gene clusters (BGCs). Comparative 16S rRNA gene and genome
analyses showed very little taxon overlap between the recovered isolates and
the sponge community as revealed by cultivation-independent methods. Both cultureindependent and -dependent analyses suggested high biosynthetic potential of the S. lacustris microbiome, which was confirmed experimentally even at the subspecies level for two Streptomyces isolates. To our knowledge, this is the most thorough description of the secondary metabolite production potential of a freshwater sponge microbiome to date.
IMPORTANCE A large body of research is dedicated to marine sponges, filter-feeding animals harboring rich bacterial microbiomes believed to play an important role in protecting the host from predators and infections. Freshwater sponges have received so far much less attention with respect to their microbiomes, members of which may produce bioactive secondary metabolites with potential to be developed into drugs to treat a variety of diseases. In this work, we investigated the potential of bacteria associated with the freshwater sponge Spongilla lacustris to biosynthesize diverse secondary metabolites.
Using culture-dependent and -independent methods, we discovered over 300 biosynthetic gene clusters in sponge-associated bacteria and proved production of several compounds by selected isolates using genome mining. Our results illustrate the importance of a complex approach when dealing with microbiomes of multicellular organisms that may contain producers of medically important secondary metabolites.
Язык оригиналаанглийский
Номер статьиe04353-22
Число страниц15
ЖурналMicrobiology spectrum
Том11
Номер выпуска2
Дата раннего онлайн-доступафев 2023
DOI
СостояниеОпубликовано - 13 апр 2023

    Предметные области Scopus

  • Биохимия, генетика и молекулярная биология (разное)
  • Микробиология

ID: 103705082