Journal
MOLECULAR MICROBIOLOGY
Volume 85, Issue 5, Pages 1007-1019Publisher
WILEY
DOI: 10.1111/j.1365-2958.2012.08158.x
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Funding
- CNRS
- Universite Paris 7-Denis Diderot [UPR9073]
- ANR-09-BLAN-0399
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ProteinDNA recognition is fundamental to transcriptional regulation. Transcription factors must be capable of locating their specific sites situated throughout the genome and distinguishing them from related sites. Mlc and NagC control uptake and use of the sugars, glucose and N-acetylglucosamine. Both their helixturnhelix motifs and their consensus binding sites on DNA are very similar. One distinguishing feature is that most NagC sites have a C/G bp at positions -11 and +11 from the centre of symmetry of the operator, while all Mlc sites have A/T. By constructing Mlc and NagC chimeras, we show that the helixturnhelix motif per se is not responsible for specific recognition of Mlc or NagC sites, but that a linker, joining the DNA-binding domain to the rest of the protein, is the major determinant. We show that a change of just two amino acids in the NagC linker is sufficient to allow NagC to recognize an A/T bp at positions +/-11 and repress Mlc targets. Modelling of the NagC linker suggests that it forms an extended structure containing two arginines and we suggest that these arginines interact differently with the minor groove at positions +/-11 depending upon the presence of a C/G or A/T bp.
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