Protein engineering and the use of molecular modeling and simulation: The case of heterodimeric Fc engineering

Protein engineering and the use of molecular modeling and simulation: The case of heterodimeric Fc engineering

Computational and structure guided methods can make significant contributions to the development of solutions for difficult protein engineering problems, including the optimization of next generation of engineered antibodies. In this paper, we describe a contemporary industrial antibody engineering...

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Veröffentlicht in:Methods (San Diego, Calif.) Calif.), 2014-01, Vol.65 (1), p.77-94
Hauptverfasser: Spreter Von Kreudenstein, Thomas, Lario, Paula I., Dixit, Surjit B.
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acid Substitution
Animals
Antibody engineering
Antibody Specificity
Binding Sites
Bispecific antibody
Computational protein engineering
Fc engineering
Heterodimeric antibody
Humans
Hydrogen Bonding
Immunoglobulin Fc Fragments - biosynthesis
Immunoglobulin Fc Fragments - chemistry
Immunoglobulin Fc Fragments - genetics
Molecular Dynamics Simulation
Protein Engineering
Protein Stability
Protein Structure, Secondary
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Zusammenfassung:Computational and structure guided methods can make significant contributions to the development of solutions for difficult protein engineering problems, including the optimization of next generation of engineered antibodies. In this paper, we describe a contemporary industrial antibody engineering program, based on hypothesis-driven in silico protein optimization method. The foundational concepts and methods of computational protein engineering are discussed, and an example of a computational modeling and structure-guided protein engineering workflow is provided for the design of best-in-class heterodimeric Fc with high purity and favorable biophysical properties. We present the engineering rationale as well as structural and functional characterization data on these engineered designs.
ISSN:1046-2023
1095-9130
DOI:10.1016/j.ymeth.2013.10.016