Prediction of membrane separation efficiency for hydrophobic and hydrophilic proteins: A coarse-grained Brownian dynamics simulation study
YS Zhang and Y Zhang and MJ McCready and EJ Maginn, JOURNAL OF MOLECULAR MODELING, 25, 132 (2019).
DOI: 10.1007/s00894-019-3985-8
A coarse-grained Brownian dynamics model was used to simulate two proteins of similar sizes inside model membrane pores of varying size and hydrophobicity. The two proteins, which have radii of gyration of approximately 9.5 angstrom in their native states, are a 36-residue hydrophilic villin head piece (HP-36) and a 40-residue hydrophobic amyloid beta (A-40). From calculations of the separation factor, it is found that the two proteins are best separated using a pore radius of 15 angstrom and that hydrophobic pores select A-40 while the hydrophilic pores preferentially pass through HP-36. In addition, it is found that a simple model based on the net hydropathy of a protein is capable of estimating the separation factor trends of other protein pairs. Together, the coarse-grained Brownian dynamics model and the simple model are fast methodologies to guide experimental membrane design and to provide insights on protein structure variations.
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