Affiliation:
1. Department of Chemistry Columbia University New York, New York 10027 USA
2. Department of Systems Biology Columbia University New York NY 10027 USA
3. Molecular Microbiology Groningen Biomolecular Sciences and Biotechnology Institute University of Groningen NL-9700 AB Groningen The Netherlands
Abstract
AbstractStraightforward methods for specifically detecting and quantifying proteins are essential for both basic and applied research and notably in synthetic biology. Previously we demonstrated that the yeast mating pathway could be hijacked to detect species‐specific fungal peptide pheromones using their corresponding mating GPCRs. Here we asked if our yeast biosensor could detect proteins in addition to peptides – a question not previously resolved in the literature. As such, we repurposed the Saccharomyces cerevisiae fungal mating pheromone α‐factor as a peptide tag and fused it terminally and internally to the protein Smt3. Our biosensor was able to detect the tagged protein in the nanomolar range using fluorescence as a read‐out. We extended the assay to four additional orthogonal peptide pheromone tags, demonstrating a cheap, non‐labor‐intensive, and high‐throughput assay compatible with multiplexing for protein detection. With its ability to detect proteins our living yeast biosensor could be useful for the optimization of protein producing cell‐factories, for building logic gates and myriad other applications in synthetic biology.
Funder
Defense Sciences Office, DARPA
Subject
Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Drug Discovery,Biochemistry,Catalysis