An oligopeptide permease, OppABCD, requires an iron-sulfur cluster domain for functionality.
Xiaolin YangTianyu HuJingxi LiangZhiqi XiongZhenli LinYao ZhaoXiaoting ZhouYan GaoShan SunXiu-Na YangLuke W GuddatHaitao YangZihe RaoBing ZhangPublished in: Nature structural & molecular biology (2024)
Oligopeptide permease, OppABCD, belongs to the type I ABC transporter family. Its role is to import oligopeptides into bacteria for nutrient uptake and to modulate the host immune response. OppABCD consists of a cluster C substrate-binding protein (SBP), OppA, membrane-spanning OppB and OppC subunits, and an ATPase, OppD, that contains two nucleotide-binding domains (NBDs). Here, using cryo-electron microscopy, we determined the high-resolution structures of Mycobacterium tuberculosis OppABCD in the resting state, oligopeptide-bound pre-translocation state, AMPPNP-bound pre-catalytic intermediate state and ATP-bound catalytic intermediate state. The structures show an assembly of a cluster C SBP with its ABC translocator and a functionally required [4Fe-4S] cluster-binding domain in OppD. Moreover, the ATP-bound OppABCD structure has an outward-occluded conformation, although no substrate was observed in the transmembrane cavity. Here, we reveal an oligopeptide recognition and translocation mechanism of OppABCD, which provides a perspective on how this and other type I ABC importers facilitate bulk substrate transfer across the lipid bilayer.
Keyphrases
- high resolution
- resting state
- electron microscopy
- binding protein
- functional connectivity
- mycobacterium tuberculosis
- immune response
- crystal structure
- amino acid
- genome wide
- molecular dynamics simulations
- fatty acid
- tandem mass spectrometry
- pulmonary tuberculosis
- high speed
- transcription factor
- metal organic framework