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Antibody Libraries as Platforms to Exploring Target and Receptor Pleiotropy
Monoclonal antibodies (mAbs) have become important classes in biopharmaceutical products. The selection of antibodies has traditionally been based on their binding affinity. New techniques and advancements in combinatorial antibody libraries have made it possible to isolate functional antibodies wit...
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Published in: | Israel journal of chemistry 2023-10, Vol.63 (10-11), p.n/a |
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container_title | Israel journal of chemistry |
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description | Monoclonal antibodies (mAbs) have become important classes in biopharmaceutical products. The selection of antibodies has traditionally been based on their binding affinity. New techniques and advancements in combinatorial antibody libraries have made it possible to isolate functional antibodies within cellular environments. These antibodies can act an agonist or antagonist provide valuable insights into the complexities of signal transduction and potentially leading to different cell responses or affecting cell behavior. Additionally, an in vivo selection system is utilized, which relies on cell migration to specific tissues, to generate antibodies that induce cells to differentiate and selectively migrate to particular tissues. Overall, the discovery of functional antibodies from antibody libraries has the potential to reveal receptor pleiotropism and pave opportunities to investigate cellular biology and uncover surprising discoveries in the areas of stem cells and cancer research. |
doi_str_mv | 10.1002/ijch.202300050 |
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subjects | Agonist antibody Combinatorial analysis Combinatorial antibody library In vivo selection Libraries Monoclonal antibodies Phage display Receptors Stem cells |
title | Antibody Libraries as Platforms to Exploring Target and Receptor Pleiotropy |
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