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Redesign of a plugged beta-barrel membrane protein.


ABSTRACT: The redesign of biological nanopores is focused on bacterial outer membrane proteins and pore-forming toxins, because their robust ?-barrel structure makes them the best choice for developing stochastic biosensing elements. Using membrane protein engineering and single-channel electrical recordings, we explored the ferric hydroxamate uptake component A (FhuA), a monomeric 22-stranded ?-barrel protein from the outer membrane of Escherichia coli. FhuA has a luminal cross-section of 3.1 × 4.4 nm and is filled by a globular N-terminal cork domain. Various redesigned FhuA proteins were investigated, including single, double, and multiple deletions of the large extracellular loops and the cork domain. We identified four large extracellular loops that partially occlude the lumen when the cork domain is removed. The newly engineered protein, FhuA?C/?4L, was the result of a removal of almost one-third of the total number of amino acids of the wild-type FhuA (WT-FhuA) protein. This extensive protein engineering encompassed the entire cork domain and four extracellular loops. Remarkably, FhuA?C/?4L forms a functional open pore in planar lipid bilayers, with a measured unitary conductance of ?4.8 nanosiemens, which is much greater than the values recorded previously with other engineered FhuA protein channels. There are numerous advantages and prospects of using such an engineered outer membrane protein not only in fundamental studies of membrane protein folding and design, and the mechanisms of ion conductance and gating, but also in more applicative areas of stochastic single-molecule sensing of proteins and nucleic acids.

SUBMITTER: Mohammad MM 

PROVIDER: S-EPMC3048687 | biostudies-literature | 2011 Mar

REPOSITORIES: biostudies-literature

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Redesign of a plugged beta-barrel membrane protein.

Mohammad Mohammad M MM   Howard Khalil R KR   Movileanu Liviu L  

The Journal of biological chemistry 20101228 10


The redesign of biological nanopores is focused on bacterial outer membrane proteins and pore-forming toxins, because their robust β-barrel structure makes them the best choice for developing stochastic biosensing elements. Using membrane protein engineering and single-channel electrical recordings, we explored the ferric hydroxamate uptake component A (FhuA), a monomeric 22-stranded β-barrel protein from the outer membrane of Escherichia coli. FhuA has a luminal cross-section of 3.1 × 4.4 nm an  ...[more]

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