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Small molecule-induced allosteric activation of the Vibrio cholerae RTX cysteine protease domain.


ABSTRACT: Vibrio cholerae RTX (repeats in toxin) is an actin-disrupting toxin that is autoprocessed by an internal cysteine protease domain (CPD). The RTX CPD is efficiently activated by the eukaryote-specific small molecule inositol hexakisphosphate (InsP6), and we present the 2.1 angstrom structure of the RTX CPD in complex with InsP6. InsP6 binds to a conserved basic cleft that is distant from the protease active site. Biochemical and kinetic analyses of CPD mutants indicate that InsP6 binding induces an allosteric switch that leads to the autoprocessing and intracellular release of toxin-effector domains.

SUBMITTER: Lupardus PJ 

PROVIDER: S-EPMC3272704 | biostudies-literature | 2008 Oct

REPOSITORIES: biostudies-literature

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Small molecule-induced allosteric activation of the Vibrio cholerae RTX cysteine protease domain.

Lupardus Patrick J PJ   Shen Aimee A   Bogyo Matthew M   Garcia K Christopher KC  

Science (New York, N.Y.) 20081001 5899


Vibrio cholerae RTX (repeats in toxin) is an actin-disrupting toxin that is autoprocessed by an internal cysteine protease domain (CPD). The RTX CPD is efficiently activated by the eukaryote-specific small molecule inositol hexakisphosphate (InsP6), and we present the 2.1 angstrom structure of the RTX CPD in complex with InsP6. InsP6 binds to a conserved basic cleft that is distant from the protease active site. Biochemical and kinetic analyses of CPD mutants indicate that InsP6 binding induces  ...[more]

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