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- Title
Quantitative and Dynamic Analyses of G Protein-Coupled Receptor Signaling in Yeast Using Fus1, Enhanced Green Fluorescence Protein (EGFP), and His3 Fusion Protein.
- Authors
Jun Ishii; Shizuka Matsumura; Sakurako Kimura; Kenji Tatematsu; Shun'ichi Kuroda; Hideki Fukuda; Akihiko Kondo
- Abstract
The mechanism of G protein-coupled receptor (GPCR) signaling in yeasts is similar to that in mammalian cells. Therefore, yeasts can be used in GPCR assays, and several ligand detection systems using a pheromone signaling pathway in yeasts have been developed by employing yeasts with disrupted chromosomal genes that code for proteins producing specific effects. In this study, the construction of yeast strains that can detect ligand binding mediated by interactions between the G protein and GPCR using either fluorescence or auxotrophic selectivity is demonstrated. The strain was constructed by integrating the fusion gene of pheromone-responsive protein (FUS1), enhanced green fluorescence protein (EGFP), and auxotrophic marker protein (HIS3) into theFUS1locus. Moreover, the influence of gene disruptions on the yeast signal transduction cascade is closely investigated with respect to both quantitative and dynamic aspects to further develop a high-throughput screening system for the GPCR assay using yeasts. Yeast strains with a disrupted SST2gene, which is a member of the RGS (regulator of G protein signaling) family, and a disrupted FAR1gene, which mediates cell cycle arrest in response to a pheromone, were monitored by measuring their fluorescence and growth rate. This method will be applicable to other comprehensive GPCR ligand screening methods.
- Subjects
YEAST; MEMBRANE proteins; BIOCHEMISTRY; MICROBIAL genetics
- Publication
Biotechnology Progress, 2006, Vol 22, Issue 4, p954
- ISSN
8756-7938
- Publication type
Article
- DOI
10.1021/bp0601387