Cholesterol is an essential component of animal cell membranes and impacts the structure and function of membrane proteins. But how cholesterol exerts its functions remains often enigmatic. Here, high-resolution solid-state NMR in combination with paramagnetic cholesterol analogues was shown to be a powerful approach to study the interaction of membrane proteins with cholesterol. Application of the method to the 169-residue translocator protein TSPO provides residue-specific information about its interaction with cholesterol. Comparison with NMR signal perturbations induced by diamagnetic cholesterol furthermore supports changes in the structure of mammalian TSPO caused by cholesterol binding.
Keywords: NMR spectroscopy; lipid; membrane protein; protein structure.
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