Peptide transport in Bacillus subtilis – structure and specificity in the extracellular solute binding proteins OppA and DppE

Author:

Hughes Adam M.1ORCID,Darby John F.1ORCID,Dodson Eleanor J.1ORCID,Wilson Samuel J.1,Turkenburg Johan P.1ORCID,Thomas Gavin H.2ORCID,Wilkinson Anthony J.1ORCID

Affiliation:

1. Structural Biology Laboratory, Department of Chemistry, University of York, York YO10 5DD, UK

2. Department of Biology, University of York, York YO10 5DD, UK

Abstract

Peptide transporters play important nutritional and cell signalling roles in Bacillus subtilis, which are pronounced during stationary phase adaptations and development. Three high-affinity ATP-binding cassette (ABC) family transporters are involved in peptide uptake – the oligopeptide permease (Opp), another peptide permease (App) and a less well-characterized dipeptide permease (Dpp). Here we report crystal structures of the extracellular substrate binding proteins, OppA and DppE, which serve the Opp and Dpp systems, respectively. The structure of OppA was determined in complex with endogenous peptides, modelled as Ser-Asn-Ser-Ser, and with the sporulation-promoting peptide Ser-Arg-Asn-Val-Thr, which bind with K d values of 0.4 and 2 µM, respectively, as measured by isothermal titration calorimetry. Differential scanning fluorescence experiments with a wider panel of ligands showed that OppA has highest affinity for tetra- and penta-peptides. The structure of DppE revealed the unexpected presence of a murein tripeptide (MTP) ligand, l-Ala-d-Glu-meso-DAP, in the peptide binding groove. The mode of MTP binding in DppE is different to that observed in the murein peptide binding protein, MppA, from Escherichia coli , suggesting independent evolution of these proteins from an OppA-like precursor. The presence of MTP in DppE points to a role for Dpp in the uptake and recycling of cell wall peptides, a conclusion that is supported by analysis of the genomic context of dpp, which revealed adjacent genes encoding enzymes involved in muropeptide catabolism in a gene organization that is widely conserved in Firmicutes .

Funder

Biotechnology and Biological Sciences Research Council

Publisher

Microbiology Society

Subject

Microbiology

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