1. Development and Application of Functionalized Protein Binders in Multicellular Organisms
- Author
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Emmanuel Caussinus, Markus Affolter, Ilaria Alborelli, Shinya Matsuda, Dimitri Bieli, and Stefan Harmansa
- Subjects
0301 basic medicine ,Scaffold ,Synthetic protein ,Protein function ,Computational biology ,Biology ,Molecular biology ,03 medical and health sciences ,Multicellular organism ,030104 developmental biology ,In vivo ,Variable domain ,Ankyrin repeat ,Function (biology) - Abstract
Protein-protein interactions are crucial for almost all biological processes. Studying such interactions in their native environment is critical but not easy to perform. Recently developed genetically encoded protein binders were shown to function inside living cells. These molecules offer a new, direct way to assess protein function, distribution and dynamics in vivo. A widely used protein binder scaffold are the so-called nanobodies, which are derived from the variable domain of camelid heavy-chain antibodies. Another commonly used scaffold, the DARPins, is based on Ankyrin repeats. In this review, we highlight how these binders can be functionalized in order to study proteins in vivo during the development of multicellular organisms. It is to be anticipated that many more applications for such synthetic protein binders will be developed in the near future.
- Published
- 2016
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