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Structure and DNA-binding properties of the cytolysin regulator CylR2 from Enterococcus faecalis.


ABSTRACT: Enterococcus faecalis is one of the major causes for hospital-acquired antibiotic-resistant infections. It produces an exotoxin, called cytolysin, which is lethal for a wide range of Gram-positive bacteria and is toxic to higher organisms. Recently, the regulation of the cytolysin operon was connected to autoinduction by a quorum-sensing mechanism involving the CylR1/CylR2 two-component regulatory system. We report here the crystal structure of CylR2 and its properties in solution as determined by heteronuclear NMR spectroscopy. The structure reveals a rigid dimer containing a helix-turn-helix DNA-binding motif as part of a five-helix bundle that is extended by an antiparallel beta-sheet. We show that CylR2 is a DNA-binding protein that binds specifically to a 22 bp fragment of the cytolysin promoter region. NMR chemical shift perturbation experiments identify surfaces involved in DNA binding and are in agreement with a model for the CylR2/DNA complex that attributes binding specificity to a complex network of CylR2/DNA interactions. Our results propose a mechanism where repression is achieved by CylR2 obstruction of the promoter preventing biosynthesis of the cytolysin operon transcript.

SUBMITTER: Rumpel S 

PROVIDER: S-EPMC517608 | biostudies-literature | 2004 Sep

REPOSITORIES: biostudies-literature

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Structure and DNA-binding properties of the cytolysin regulator CylR2 from Enterococcus faecalis.

Rumpel Sigrun S   Razeto Adelia A   Pillar Chris M CM   Vijayan Vinesh V   Taylor Austin A   Giller Karin K   Gilmore Michael S MS   Becker Stefan S   Zweckstetter Markus M  

The EMBO journal 20040909 18


Enterococcus faecalis is one of the major causes for hospital-acquired antibiotic-resistant infections. It produces an exotoxin, called cytolysin, which is lethal for a wide range of Gram-positive bacteria and is toxic to higher organisms. Recently, the regulation of the cytolysin operon was connected to autoinduction by a quorum-sensing mechanism involving the CylR1/CylR2 two-component regulatory system. We report here the crystal structure of CylR2 and its properties in solution as determined  ...[more]

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