Scientific Reports (Oct 2022)

A novel metagenome-derived viral RNA polymerase and its application in a cell-free expression system for metagenome screening

  • Yuchen Han,
  • Birhanu M. Kinfu,
  • Fabian Blombach,
  • Gwenny Cackett,
  • Hongli Zhang,
  • Pablo Pérez-García,
  • Ines Krohn,
  • Jesper Salomon,
  • Volkan Besirlioglu,
  • Tayebeh Mirzaeigarakani,
  • Ulrich Schwaneberg,
  • Jennifer Chow,
  • Finn Werner,
  • Wolfgang R. Streit

DOI
https://doi.org/10.1038/s41598-022-22383-x
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 15

Abstract

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Abstract The mining of genomes from non-cultivated microorganisms using metagenomics is a powerful tool to discover novel proteins and other valuable biomolecules. However, function-based metagenome searches are often limited by the time-consuming expression of the active proteins in various heterologous host systems. We here report the initial characterization of novel single-subunit bacteriophage RNA polymerase, EM1 RNAP, identified from a metagenome data set obtained from an elephant dung microbiome. EM1 RNAP and its promoter sequence are distantly related to T7 RNA polymerase. Using EM1 RNAP and a translation-competent Escherichia coli extract, we have developed an efficient medium-throughput pipeline and protocol allowing the expression of metagenome-derived genes and the production of proteins in cell-free system is sufficient for the initial testing of the predicted activities. Here, we have successfully identified and verified 12 enzymes acting on bis(2-hydroxyethyl) terephthalate (BHET) in a completely clone-free approach and proposed an in vitro high-throughput metagenomic screening method.