ABSTRACT
We describe the cryo-EM structure of Clostridium perfringens β-toxin (CBP) in styrene maleic acid (SMA) discs, which represents the membrane-inserted pore form, at near atomic resolution. We show that CPB forms an octamer, which though having a similar conformation to the hetero-oligomeric pores of bicomponent leukocidins, features a different receptor binding region and a novel N-terminal β-barrel. The latter contains an additional selectivity filter and creates a bipolar pore. We propose that the N-terminal β-barrel domain may regulate oligomerization and solubility of the complex and influence channel conductance and monomer stability. In addition, we show that the β-barrel protrusion domain can be modified or exchanged without affecting the pore forming ability, thus making the pore particularly attractive for macromolecule sensing and nanotechnology. The cryo-EM structure of the octameric pore of CPB will facilitate future developments in both nanotechnology and basic research.
Competing Interest Statement
The authors have declared no competing interest.
ABBREVIATIONS
- CPB
- C. perfringens β-toxin
- SMA
- styrene maleic acid
- PFT
- pore forming toxin
- NBP
- N-terminal β-barrel protrusion
- PMF
- potential mean force
- RMSF
- root mean square fluctuation