Heedeok Hong

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  General steric trapping strategy reveals an intricate cooperativity network in the intramembrane protease GlpG under native conditions
  Heedeok Hong
  Membrane proteins are assembled through balanced interactions among protein, lipids and water. Studying their folding while maintaining the native lipid environment is a necessary but challenging task. Here we present a set of methods for analyzing key elements in membrane protein folding, including thermodynamic stability, compactness of the unfolded state and unfolding cooperativity under native conditions. The methods are based on steric trapping which couples unfolding of a doubly-biotinylated protein to binding of monovalent streptavidin (mSA). We further advanced this technology for general application by developing versatile biotin probes possessing spectroscopic reporters that are sensitized by mSA binding or protein unfolding. By applying those methods to an intramembrane protease GlpG, we elucidated a widely unraveled unfolded state, subglobal unfolding of the region encompassing the active site, and a network of cooperative and localized interactions for maintaining the stability. These findings provide crucial insights into the folding energy landscape of membrane proteins.