Open AccessDesigning Human Antibodies by Phage Display
Author(s) -
André Frenzel,
Jonas Kügler,
Saskia Helmsing,
Doris Meier,
Thomas Schirrmann,
Michael Hust,
Stefan Dübel
Publication year - 2017
Publication title -
transfusion medicine and hemotherapy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.971
H-Index - 39
eISSN - 1660-3818
pISSN - 1660-3796
DOI - 10.1159/000479633
Subject(s) - panning (audio) , phage display , selection (genetic algorithm) , antibody , monoclonal antibody , computational biology , computer science , directed molecular evolution , immunology , directed evolution , biology , artificial intelligence , genetics , gene , paleontology , zoom , mutant , lens (geology)
With six approved products and more than 60 candidates in clinical testing, human monoclonal antibody discovery by phage display is well established as a robust and reliable source for the generation of therapeutic antibodies. While a vast diversity of library generation philosophies and selection strategies have been conceived, the power of molecular design offered by controlling the in vitro selection step is still to be recognized by a broader audience outside of the antibody engineering community. Here, we summarize some opportunities and achievements, e.g., the generation of antibodies which could not be generated otherwise, and the design of antibody properties by different panning strategies, including the adjustment of kinetic parameters.
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