A Semi‐Quantitative Yeast Complementation Platform for Characterizing Urea and Ammonia Transport by Membrane Channels
Anna Stoib, Sahar Shojaei, Christine Siligan, Andreas Horner

TL;DR
This paper introduces a yeast-based method to study how membrane channels transport urea and ammonia, using cell growth as a readout.
Contribution
A semi-quantitative yeast complementation platform is developed for studying urea and ammonia transport by membrane channels.
Findings
Functional complementation in yeast is demonstrated using urea and ammonia as sole nitrogen sources.
The method allows semi-quantitative comparison of channel function across a pH range.
The platform is scalable, cost-effective, and suitable for high-throughput screening.
Abstract
Yeast complementation assays provide a robust in vivo platform for characterizing the permeability and pH gating of transmembrane channels. This article details a liquid culture approach to quantify urea and ammonia transport using Saccharomyces cerevisiae deletion strains. Functional complementation, evidenced by cell growth in selective medium with urea or ammonia as the sole nitrogen source, directly reports on channel activity, generating solute‐specific permeability and pH‐dependency profiles. We present step‐by‐step procedures using the bacterial urea channel HpUreI of Helicobacter pylori, including two variants (A57C and L134C) for urea permeability and HpUreI, HpUreI E177Q, and human hAQP8 for ammonia transport. By monitoring growth across a pH range, this method enables semi‐quantitative comparison of channel function. The assay is cost effective, scalable to high‐throughput…
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Taxonomy
TopicsFungal and yeast genetics research · Enzyme Structure and Function · Bacterial Genetics and Biotechnology
