Abstract
Halorespiration is a bacterial respiratory process in which haloorganic compounds act as terminal electron acceptors. This process is controlled at transcriptional level by CprK, a member of the ubiquitous CRP-FNR family. Here we present the crystal structures of oxidized CprK in presence of the ligand ortho-chlorophenolacetic acid and of reduced CprK in absence of this ligand. These structures reveal that highly specific binding of chlorinated, rather than the corresponding non-chlorinated, phenolic compounds in the NH 2-terminal ß-barrels causes reorientation of these domains with respect to the central ¿-helix at the dimer interface. Unexpectedly, the COOH-terminal DNA-binding domains dimerize in the non-DNA binding state. We postulate the ligand-induced conformational change allows formation of interdomain contacts that disrupt the DNA domain dimer interface and leads to repositioning of the helix-turn-helix motifs. These structures provide a structural framework for further studies on transcriptional control by CRP-FNR homologs in general and of halorespiration regulation by CprK in particular
Original language | English |
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Pages (from-to) | 28318-28325 |
Journal | Journal of Biological Chemistry |
Volume | 281 |
Issue number | 38 |
DOIs | |
Publication status | Published - 2006 |
Keywords
- nucleotide-gated channels
- camp receptor protein
- desulfitobacterium-dehalogenans
- dna-binding
- escherichia-coli
- purification
- refinement
- activation
- regulator
- chlorine