Role of membrane potential in protein folding and domain formation during secretion in escherichia coli

Abstract: The synthesis and processing of the periplasmic components of the leucine transport system of E coli have been studied to determine the role played by transmembrane potential in protein secretion. Both the leucine-isoleucine-valine binding protein and the leucine-specific binding protein are synthesized as precursors with 23 amino acid N-terminal leader sequences. The processing of these precursors is sensitive to the transmembrane potential. Since the amino acid sequence and the crystal structure have been de… Show more

“…Applying optical techniques, such as FRET and MIET, utilizing the platform described in this work can allow for novel experiments that probe voltage-induced molecular dynamics of membrane proteins. Beyond voltage-gated ion channels, this experimental approach could be used to investigate the role of membrane potential and electrostatics in the conformation of membrane proteins ( 43 , 44 , 45 , 46 ). In addition to membrane and protein biophysics, combining optical and electrochemical tools can be used for studying the physicochemical properties of solid-electrolyte interfaces.…”

“…In addition, it is very likely that many proteins and processes in the membrane are affected or induced by the electrical potential across the membrane ( 43 , 44 ). In particular, microscopic electrostatics can direct the conformation and function of membrane proteins through their charged domains ( 45 , 46 ).…”

Electrically controlling and optically observing the membrane potential of supported lipid bilayers

“…Applying optical techniques, such as FRET and MIET, utilizing the platform described in this work can allow for novel experiments that probe voltage-induced molecular dynamics of membrane proteins. Beyond voltage-gated ion channels, this experimental approach could be used to investigate the role of membrane potential and electrostatics in the conformation of membrane proteins ( 43 , 44 , 45 , 46 ). In addition to membrane and protein biophysics, combining optical and electrochemical tools can be used for studying the physicochemical properties of solid-electrolyte interfaces.…”

“…In addition, it is very likely that many proteins and processes in the membrane are affected or induced by the electrical potential across the membrane ( 43 , 44 ). In particular, microscopic electrostatics can direct the conformation and function of membrane proteins through their charged domains ( 45 , 46 ).…”

Electrically controlling and optically observing the membrane potential of supported lipid bilayers

“…Applying optical techniques such as FRET and MIET utilizing the platform described in this work can allow for novel experiments that probe voltage-induced molecular dynamics of membrane proteins. Beyond voltage-gated ion channels, this experimental approach could investigate the role of membrane potential and electrostatics in the conformation of membrane proteins [38][39][40][41]. In addition to membrane and protein biophysics, combining optical and electrochemical tools can be used for studying the physicochemical properties of solid-electrolyte interfaces.…”

“…In addition, it is very likely that many proteins and processes in the membrane are affected or induced by the electrical potential across the membrane [38,39]. In particular, microscopic electrostatics can direct the conformation and function of membrane proteins through their charged domains [40,41].…”

Electrically Controlling and Optically Observing the Membrane Potential of Supported Lipid Bilayers

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