eLife (Jan 2019)

Insights into AMS/PCAT transporters from biochemical and structural characterization of a double Glycine motif protease

  • Silvia C Bobeica,
  • Shi-Hui Dong,
  • Liujie Huo,
  • Nuria Mazo,
  • Martin I McLaughlin,
  • Gonzalo Jiménez-Osés,
  • Satish K Nair,
  • Wilfred A van der Donk

DOI
https://doi.org/10.7554/eLife.42305
Journal volume & issue
Vol. 8

Abstract

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The secretion of peptides and proteins is essential for survival and ecological adaptation of bacteria. Dual-functional ATP-binding cassette transporters export antimicrobial or quorum signaling peptides in Gram-positive bacteria. Their substrates contain a leader sequence that is excised by an N-terminal peptidase C39 domain at a double Gly motif. We characterized the protease domain (LahT150) of a transporter from a lanthipeptide biosynthetic operon in Lachnospiraceae and demonstrate that this protease can remove the leader peptide from a diverse set of peptides. The 2.0 Å resolution crystal structure of the protease domain in complex with a covalently bound leader peptide demonstrates the basis for substrate recognition across the entire class of such transporters. The structural data also provide a model for understanding the role of leader peptide recognition in the translocation cycle, and the function of degenerate, non-functional C39-like domains (CLD) in substrate recruitment in toxin exporters in Gram-negative bacteria.

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