The Amino-Terminal Domain of LexA Repressor is α -helical but Differs from Canonical Helix-Turn-Helix Proteins: A Two-Dimensional 1H NMR Study

R. M. J. N. Lamerichs, A. Padilla, R. Boelens, R. Kaptein, G. Ottleben, H. Ruterjans, M. Granger-Schnarr, P. Oertel, M. Schnarr

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

The amino-terminal DNA binding domain of LexA repressor consisting of 84 amino acid residues has been studied by two-dimensional 1H NMR. Sequence-specific 1H resonance assignments were made for the first 60 amino acid residues. The secondary structure of this part of the protein contains three alpha-helices in the peptide segments 8-20, 28-35, and 41-54. The last helix has a distortion around residues 47-48. The peptide segment 28-47 shows weak homology with other helix-turn-helix proteins. To investigate the spatial structure of this region of the molecule distance-geometry calculations were performed based on proton-proton distance constraints from nuclear Overhauser effects. The resulting structure shows that the segment 28-47 contains two helices with a loop region between them. The relative orientation of the two helices is similar to that found in helix-turn-helix proteins, but the helices are further apart, with the phenyl ring of Phe-37 located between them. The Brookhaven Protein Data Bank was searched for structurally homologous peptide segments in other proteins. The result of this search was that the two-helical structure of LexA is not more closely related to the canonical helix-turn-helix motif than it is to similar substructures found in other classes of proteins.
Original languageEnglish
Pages (from-to)6863-6867
Number of pages5
JournalProceedings of the National Academy of Sciences of the United States of America
Volume86
Issue number18
DOIs
Publication statusPublished - 1 Sept 1989

Keywords

  • DNA binding protein
  • repressor protein
  • amino terminal sequence
  • binding site
  • nonhuman
  • nuclear Overhauser effect
  • priority journal
  • protein secondary structure
  • protein structure
  • proton nuclear magnetic resonance

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