HokB monomerization and membrane repolarization control persister awakening. Wilmaerts et al.
Published: 18 July 2019| Version 2 | DOI: 10.17632/gr3thzhmhp.2
Contributors:
D W, , , , , Description
The toxin HokB forms intermolecular disulfide bridges, which are essential for HokB pore formation and consequently the induction of persistence. Additionally, awakening of these persister cells relies on monomerization of the HokB toxin, combined with repolarization of the membrane.
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Institutions
Katholieke Universiteit Leuven
Categories
Antibiotics, Western Blot, Correlation Analysis