Conserved bacterial genes for biosynthesis of the algal morphogen thallusin span land and sea
Kallscheuer, N.; Ulrich, J. F.; Staack, M.; Liu, Y.; Das, M. K.; Westphahl, M.; Sperfeld, M.; Holbl, H.; Hammer, J.; Nagel, R.; Sasso, S.; Sunagawa, S.; Zedler, J. A. Z.; Arndt, H.-D.; Beemelmanns, C.; Jogler, C.; Wichard, T.
Show abstract
Bacterial signals control the development of marine algae, yet the molecular basis of these cross-kingdom interactions remains largely unknown. Thallusin is the paradigmatic case: isolated in 2005, it induces rhizoid and cell wall formation in the green seaweed Ulva at picomolar concentrations, but its biosynthesis has remained elusive for two decades. Comparative genomics across five bacterial phyla identifies a conserved set of genes - the eustigmatophyte bacterial operon (ebo) - as determinants of thallusin biosynthesis. Isotope labeling, heterologous expression, and gene deletion in Stieleria maiorica show that the aromatic scaffold derives from a cyclitol precursor and L-aspartate, with subsequent prenylation and cyclization. Searching 124,295 prokaryotic genomes identifies producers in eleven bacterial lineages, including soil cyanobacteria, establishing thallusin as a widespread cross-kingdom signal reaching beyond the ocean.
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