EMD-24473
Structure of a BAM/EspP(beta9-12) hybrid-barrel intermediate
EMD-24473
Single-particle3.4 Å
Deposition: 19/07/2021Map released: 22/12/2021
Last modified: 23/10/2024
Sample Organism:
Escherichia coli
Sample: Structure of a BAM/EspP hybrid-barrel intermediate
Fitted models: 7ri4 (Avg. Q-score: 0.442)
Deposition Authors: Wu RR, Noinaj N
Sample: Structure of a BAM/EspP hybrid-barrel intermediate
Fitted models: 7ri4 (Avg. Q-score: 0.442)
Deposition Authors: Wu RR, Noinaj N
Plasticity within the barrel domain of BamA mediates a hybrid-barrel mechanism by BAM.
Wu R,
Bakelar JW,
Lundquist K ,
Zhang Z,
Kuo KM ,
Ryoo D,
Pang YT ,
Sun C ,
White T ,
Klose T ,
Jiang W ,
Gumbart JC,
Noinaj N
(2021) Nat Commun , 12 , 7131 - 7131
,
Zhang Z,
Kuo KM ,
Ryoo D,
Pang YT ,
Sun C ,
White T ,
Klose T ,
Jiang W ,
Gumbart JC,
Noinaj N
(2021) Nat Commun , 12 , 7131 - 7131
Abstract:
In Gram-negative bacteria, the biogenesis of β-barrel outer membrane proteins is mediated by the β-barrel assembly machinery (BAM). The mechanism employed by BAM is complex and so far- incompletely understood. Here, we report the structures of BAM in nanodiscs, prepared using polar lipids and native membranes, where we observe an outward-open state. Mutations in the barrel domain of BamA reveal that plasticity in BAM is essential, particularly along the lateral seam of the barrel domain, which is further supported by molecular dynamics simulations that show conformational dynamics in BAM are modulated by the accessory proteins. We also report the structure of BAM in complex with EspP, which reveals an early folding intermediate where EspP threads from the underside of BAM and incorporates into the barrel domain of BamA, supporting a hybrid-barrel budding mechanism in which the substrate is folded into the membrane sequentially rather than as a single unit.
In Gram-negative bacteria, the biogenesis of β-barrel outer membrane proteins is mediated by the β-barrel assembly machinery (BAM). The mechanism employed by BAM is complex and so far- incompletely understood. Here, we report the structures of BAM in nanodiscs, prepared using polar lipids and native membranes, where we observe an outward-open state. Mutations in the barrel domain of BamA reveal that plasticity in BAM is essential, particularly along the lateral seam of the barrel domain, which is further supported by molecular dynamics simulations that show conformational dynamics in BAM are modulated by the accessory proteins. We also report the structure of BAM in complex with EspP, which reveals an early folding intermediate where EspP threads from the underside of BAM and incorporates into the barrel domain of BamA, supporting a hybrid-barrel budding mechanism in which the substrate is folded into the membrane sequentially rather than as a single unit.