Thermodynamics, cooperativity and stability of the tetracycline repressor (TetR) upon tetracycline binding.Palm, G.J., Buchholz, I., Werten, S., Girbardt, B., Berndt, L., Delcea, M., Hinrichs, W.
(2020) Biochim Biophys Acta Proteins Proteom 1868: 140404-140404
- PubMed: 32114262
- DOI: 10.1016/j.bbapap.2020.140404
- Structures With Same Primary Citation
- PubMed Abstract:
- Modular organisation of inducer recognition and allostery in the tetracycline repressor.
Werten, S., Schneider, J., Palm, G.J., Hinrichs, W.
(2016) FEBS J 283: 2102
Allosteric regulation of the Tet repressor (TetR) homodimer relies on tetracycline binding that abolishes the affinity for the DNA operator. Previously, interpretation of circular dichroism data called for unfolding of the α-helical DNA-binding domai ...
Allosteric regulation of the Tet repressor (TetR) homodimer relies on tetracycline binding that abolishes the affinity for the DNA operator. Previously, interpretation of circular dichroism data called for unfolding of the α-helical DNA-binding domains in absence of binding to DNA or tetracycline. Our small angle X-ray scattering of TetR(D) in solution contradicts this unfolding as a physiological process. Instead, in the core domain crystal structures analyses show increased immobilisation of helix α9 and two C-terminal turns of helix α8 upon tetracycline binding. Tetracycline complexes of TetR(D) and four single-site alanine variants were characterised by isothermal titration calorimetry, fluorescence titration, X-ray crystal structures, and melting curves. Five crystal structures confirm that Thr103 is a key residue for the allosteric events of induction, with the T103A variant lacking induction by any tetracycline. The T103A variant shows anti-cooperative inducer binding, and a melting curve of the tetracycline complex different to TetR(D) and other variants. For the N82A variant inducer binding is clearly anti-cooperative but triggers the induced conformation.
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