Scott Falke scite author profile

We analyzed the 440-kDa transmembrane pore formed by the protective antigen (PA) moiety of anthrax toxin in the presence of GroEL by negative-stain electron microscopy. GroEL binds both the heptameric PA prepore and the PA pore. The latter interaction retards aggregation of the pore, prolonging its insertion-competent state. Two populations of unaggregated pores were visible: GroEL-bound pores and unbound pores. This allowed two virtually identical structures to be reconstructed, at 25-Å and 28-Å resolution, respectively. The structures were mushroom-shaped objects with a 125-Å-diameter cap and a 100-Å-long stem, consistent with earlier biochemical data. Thus, GroEL provides a platform for obtaining initial glimpses of a membrane protein structure in the absence of lipids or detergents and can function as a scaffold for higher-resolution structural analysis of the PA pore.

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The 13Å Structure of a Chaperonin GroEL–Protein Substrate Complex by Cryo-electron Microscopy

Falke

Tama

Brooks

et al. 2005

Journal of Molecular Biology

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Structural and functional effects of PA700 and modulator protein on proteasomes 1 1Edited by W. Baumeister

Adams

Falke

Goldberg

et al. 1997

Journal of Molecular Biology

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Structural changes in GroEL effected by binding a denatured protein substrate 1 1Edited by W. Baumeister

Falke

Fisher

Gogol

2001

Journal of Molecular Biology

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Classification and Reconstruction of a Heterogeneous Set of Electron Microscopic Images: A Case Study of GroEL–Substrate Complexes

Falke

Fisher

Gogol

2001

Journal of Structural Biology

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Scott Falke

GroEL as a molecular scaffold for structural analysis of the anthrax toxin pore

The 13Å Structure of a Chaperonin GroEL–Protein Substrate Complex by Cryo-electron Microscopy

Structural and functional effects of PA700 and modulator protein on proteasomes 1 1Edited by W. Baumeister

Structural changes in GroEL effected by binding a denatured protein substrate 1 1Edited by W. Baumeister

Classification and Reconstruction of a Heterogeneous Set of Electron Microscopic Images: A Case Study of GroEL–Substrate Complexes

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