Coarse-grained simulation of PEGylated and tethered protein devices at all experimentally accessible surface residues on β -lactamase for stability analysis and comparison

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Abstract

PEGylated and surface-tethered proteins are used in a variety of biotechnological applications, but traditional methods offer little control over the placement of the functionalization sites on the protein. Fortunately, recent experimental methods functionalize the protein at any location on the amino acid sequence, so the question becomes one of selecting the site that will result in the best protein function. This work shows how molecular simulation can be used to screen potential attachment sites for surface tethering or PEGylation. Previous simulation work has shown promise in this regard for a model protein, but these studies are limited to screening only a few of the surface-accessible sites or only considered surface tethering or PEGylation separately rather than their combined effects. This work is done to overcome these limitations by screening all surface-accessible functionalization sites on a protein of industrial and therapeutic importance (TEM-1) and to evaluate the effects of tethering and PEGylation simultaneously in an effort to create a more accurate screen. The results show that functionalization site effectiveness appears to be a function of super-secondary and tertiary structures rather than the primary structure, as is often currently assumed. Moreover, sites in the middle of secondary structure elements, and not only those in loops regions, are shown to be good options for functionalization - a fact not appreciated in current practice. Taken as a whole, the results show how rigorous molecular simulation can be done to identify candidate amino acids for functionalization on a protein to facilitate the rational design of protein devices.

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Smith, A. K., Soltani, M., Wilkerson, J. W., Timmerman, B. D., Zhao, E. L., Bundy, B. C., & Knotts, T. A. (2021). Coarse-grained simulation of PEGylated and tethered protein devices at all experimentally accessible surface residues on β -lactamase for stability analysis and comparison. Journal of Chemical Physics, 154(7). https://doi.org/10.1063/5.0032019

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