RT Journal Article
SR Electronic
T1 A quantitative tri-fluorescent yeast two-hybrid system: from flow cytometry to <em>in-cellula</em> affinities
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 553636
DO 10.1101/553636
A1 David Cluet
A1 Ikram Amri
A1 Blandine Vergier
A1 Jérémie Léault
A1 Clémence Grosjean
A1 Dylan Calabresi
A1 Martin Spichty
YR 2019
UL http://biorxiv.org/content/early/2019/02/18/553636.abstract
AB We present a technological advancement for the estimation of the affinities of Protein-Protein Interactions (PPIs) in living cells. A novel set of vectors is introduced that enables a quantitative yeast two-hybrid system based on fluorescent fusion proteins. The vectors allow simultaneous quantification of the reaction partners (Bait and Prey) and the reporter at the single-cell level by flow cytometry. We validate the applicability of this system on PPIs with different affinities. After only two hours of reaction, expression of the reporter can easily be detected even for the weakest PPI. Through a simple gating analysis, it is possible to select only cells with identical expression levels of the reaction partners. As a result of this standardization of expression levels, the mean reporter levels directly reflects the affinities of the studied PPIs. With a set of PPIs with known affinities, it is straightforward to construct an affinity ladder that permits rapid classification of PPIs with thus far unknown affinities. Conventional software can be used for this analysis. To permit automated high-throughput analysis, we provide a graphical user interface for the Python-based FlowCytometryTools package.AbbreviationsPPIsProtein-Protein interactionsqY2Hquantitative yeast two-hybridBD-BaitDNA Binding Domain fused to the BaitAD-PreyActivation Domain fused to the Prey