Kazuya Nishio scite author profile

Adhesion pili (fimbriae) play a critical role in initiating the events that lead to intestinal colonization and diarrheal disease by enterotoxigenic Escherichia coli (ETEC), an E. coli pathotype that inflicts an enormous global disease burden. We elucidate atomic structures of an ETEC major pilin subunit, CfaB, from colonization factor antigen I (CFA/I) fimbriae. These data are used to construct models for 2 morphological forms of CFA/I fimbriae that are both observed in vivo: the helical filament into which it is typically assembled, and an extended, unwound conformation. Modeling and corroborative mutational data indicate that proline isomerization is involved in the conversion between these helical and extended forms. Our findings affirm the strong structural similarities seen between class 5 fimbriae (from bacteria primarily causing gastrointestinal disease) and class 1 pili (from bacteria that cause urinary, respiratory, and other infections) in the absence of significant primary sequence similarity. They also suggest that morphological and biochemical differences between fimbrial types, regardless of class, provide structural specialization that facilitates survival of each bacterial pathotype in its preferred host microenvironment. Last, we present structural evidence for bacterial use of antigenic variation to evade host immune responses, in that residues occupying the predicted surface-exposed face of CfaB and related class 5 pilins show much higher genetic sequence variability than the remainder of the pilin protein.crystal structure ͉ pili ͉ diarrheal disease ͉ adhesion ͉ proline isomerization

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Crystal structure of the de-ubiquitinating enzyme UCH37 (human UCH-L5) catalytic domain

Nishio

Kim

Kawai

et al. 2009

Biochemical and Biophysical Research Communications

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Conformational Changes in the Tryptophan Synthase from a Hyperthermophile upon α₂β₂ Complex Formation: Crystal Structure of the Complex^,

Lee

Ogasahara

et al. 2005

Biochemistry

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The three-dimensional structure of the bifunctional tryptophan synthase alpha(2)beta(2) complex from Pyrococcus furiosus was determined by crystallographic analysis. This crystal structure, with the structures of an alpha subunit monomer and a beta(2) subunit dimer that have already been reported, is the first structural set in which changes in structure that occur upon the association of the individual tryptophan synthase subunits were observed. To elucidate the structural basis of the stimulation of the enzymatic activity of each of the alpha and beta(2) subunits upon alpha(2)beta(2) complex formation, the conformational changes due to complex formation were analyzed in detail compared with the structures of the alpha monomer and beta(2) subunit dimer. The major conformational changes due to complex formation occurred in the region correlated with the catalytic function of the enzyme as follows. (1) Structural changes in the beta subunit were greater than those in the alpha subunit. (2) Large movements of A46 and L165 in the alpha subunit due to complex formation caused a more open conformation favoring the entry of the substrate at the alpha active site. (3) The major changes in the beta subunit were the broadening of a long tunnel through which the alpha subunit product (indole) is transferred to the beta active site and the opening of an entrance at the beta active site. (4) The changes in the conformations of both the alpha and beta subunits due to complex formation contributed to the stabilization of the subunit association, which is critical for the stimulation of the enzymatic activities.

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Kazuya Nishio

Structure of CFA/I fimbriae from enterotoxigenic Escherichia coli

Crystal structure of the de-ubiquitinating enzyme UCH37 (human UCH-L5) catalytic domain

Conformational Changes in the Tryptophan Synthase from a Hyperthermophile upon α₂β₂ Complex Formation: Crystal Structure of the Complex^,

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Kazuya Nishio

Structure of CFA/I fimbriae from enterotoxigenic Escherichia coli

Crystal structure of the de-ubiquitinating enzyme UCH37 (human UCH-L5) catalytic domain

Conformational Changes in the Tryptophan Synthase from a Hyperthermophile upon α2β2 Complex Formation: Crystal Structure of the Complex,

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Conformational Changes in the Tryptophan Synthase from a Hyperthermophile upon α₂β₂ Complex Formation: Crystal Structure of the Complex^,