A Split-Ubiquitin Based Strategy Selecting for Protein Complex-Interfering Mutations.

Thomas Gronemeyer, Julian Chollet, Stefan Werner, Oliver Glomb, Anne Bäuerle, Nils Johnsson

G3 (Bethesda, Md.) 2016 Sep 08

filter terms:

Understanding the topologies and functions of protein interaction networks requires the selective removal of single interactions. We introduce a selection strategy that enriches among a random library of alleles for mutations that impair the binding to a given partner protein. The selection makes use of a split-ubiquitin based protein interaction assay. This assay provides yeast cells that carry protein complex disturbing mutations with the advantage of being able to survive on uracil-lacking media. Applied to the exemplary interaction between the PB domains of the yeast proteins Bem1 and Cdc24, we performed two independent selections. The selections were either analyzed by Sanger sequencing of isolated clones or by next generation sequencing (NGS) of pools of clones. Both screens enriched for the same mutation in position 833 of Cdc24. Biochemical analysis confirmed that this mutation disturbs the interaction with Bem1 but not the fold of the protein. The larger dataset obtained by NGS achieved a more complete representation of the bipartite interaction interface of Cdc24. Copyright © 2016 Gronemeyer et al.

Citation

Thomas Gronemeyer, Julian Chollet, Stefan Werner, Oliver Glomb, Anne Bäuerle, Nils Johnsson. A Split-Ubiquitin Based Strategy Selecting for Protein Complex-Interfering Mutations. G3 (Bethesda, Md.). 2016 Sep 08;6(9):2809-15