Jennifer C. Lee scite author profile

Membrane proteins participate in nearly all cellular processes; however, because of experimental limitations, their characterization lags far behind that of soluble proteins. Peripheral membrane proteins are particularly challenging to study because of their inherent propensity to adopt multiple and/or transient conformations in solution and upon membrane association. In this review, we summarize useful biophysical techniques for the study of peripheral membrane proteins and their application in the characterization of the membrane interactions of the natively unfolded and Parkinson’s disease (PD) related protein, α-synuclein (α-syn). We give particular focus to studies that have led to the current understanding of membrane-bound α-syn structure and the elucidation of specific membrane properties that affect α-syn-membrane binding. Finally, we discuss biophysical evidence supporting a key role for membranes and α-syn in PD pathogenesis.

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α-Synuclein structures from fluorescence energy-transfer kinetics: Implications for the role of the protein in Parkinson's disease

Lee

Langen

Hummel

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

146

194

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α-Synuclein Shows High Affinity Interaction with Voltage-dependent Anion Channel, Suggesting Mechanisms of Mitochondrial Regulation and Toxicity in Parkinson Disease

Rostovtseva

Gurnev

Protchenko

et al. 2015

Journal of Biological Chemistry

170

191

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Background:The intrinsically disordered protein ␣-synuclein, a hallmark of Parkinson disease, is involved in mitochondrial dysfunction in neurodegeneration and directly interacts with mitochondria. Results: ␣-Synuclein regulates VDAC permeability; ␣-synuclein toxicity in yeast depends on VDAC. Conclusion: ␣-Synuclein both blocks VDAC and translocates via this channel across the mitochondrial outer membrane. Significance: (Patho)physiological roles of monomeric ␣-synuclein may originate from its interaction with VDAC.

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Jennifer C. Lee

Biophysics of α-synuclein membrane interactions

α-Synuclein structures from fluorescence energy-transfer kinetics: Implications for the role of the protein in Parkinson's disease

α-Synuclein Shows High Affinity Interaction with Voltage-dependent Anion Channel, Suggesting Mechanisms of Mitochondrial Regulation and Toxicity in Parkinson Disease

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