Evf, a Virulence Factor Produced by the Drosophila Pathogen Erwinia carotovora, Is an S-Palmitoylated Protein with a New Fold That Binds to Lipid Vesicles

Erwinia carotovora are phytopathogenic Gram-negative bacteria of agronomic interest as these bacteria are responsible for fruit soft rot and use insects as dissemination vectors. The Erwinia carotovora carotovora strain 15 (Ecc15) is capable of persisting in the Drosophila gut by the sole action of...

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Bibliographic Details
Published in:The Journal of biological chemistry 2009-02, Vol.284 (6), p.3552-3562
Main Authors: Quevillon-Cheruel, Sophie, Leulliot, Nicolas, Muniz, Carlos Acosta, Vincent, Michel, Gallay, Jacques, Argentini, Manuela, Cornu, David, Boccard, Frédéric, Lemaître, Bruno, van Tilbeurgh, Herman
Format: Article
Language:English
Subjects:
Animals
Bacterial Proteins - chemistry
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Binding Sites - genetics
Chemical Sciences
Crystallography, X-Ray
Cysteine - chemistry
Cysteine - genetics
Cysteine - metabolism
Drosophila
Drosophila - microbiology
Erwinia
Erwinia carotovora
Membrane Lipids - chemistry
Membrane Lipids - metabolism
Mutation
Organic chemistry
Pectobacterium carotovorum - chemistry
Pectobacterium carotovorum - genetics
Pectobacterium carotovorum - metabolism
Pectobacterium carotovorum - pathogenicity
Protein Binding - genetics
Virulence Factors - chemistry
Virulence Factors - genetics
Virulence Factors - metabolism
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Summary:Erwinia carotovora are phytopathogenic Gram-negative bacteria of agronomic interest as these bacteria are responsible for fruit soft rot and use insects as dissemination vectors. The Erwinia carotovora carotovora strain 15 (Ecc15) is capable of persisting in the Drosophila gut by the sole action of one protein, Erwinia virulence factor (Evf). However, the precise function of Evf is elusive, and its sequence does not provide any indication as to its biochemical function. We have solved the 2.0-Å crystal structure of Evf and found a protein with a complex topology and a novel fold. The structure of Evf confirms that Evf is unlike any virulence factors known to date. Most remarkably, we identified palmitoic acid covalently bound to the totally conserved Cys209, which provides important clues as to the function of Evf. Mutation of the palmitoic binding cysteine leads to a loss of virulence, proving that palmitoylation is at the heart of Evf infectivity and may be a membrane anchoring signal. Fluorescence studies of the sole tryptophan residue (Trp94) demonstrated that Evf was indeed able to bind to model membranes containing negatively charged phospholipids and to promote their aggregation.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M808334200