Publications by authors named "Ryoga Ishii"

Tryptophan is a relatively rare amino acid whose influx is strictly controlled to meet cellular demands. The yeast Saccharomyces cerevisiae has two tryptophan permeases, namely Tat1 (low-affinity type) and Tat2 (high-affinity type). These permeases are differentially regulated through ubiquitination based on inducible conditions and dependence on arrestin-related trafficking adaptors, although the physiological significance of their degradation remain unclear.

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Previously, we isolated 84 deletion mutants in Saccharomyces cerevisiae auxotrophic background that exhibited hypersensitive growth under high hydrostatic pressure and/or low temperature. Here, we observed that 24 deletion mutants were rescued by the introduction of four plasmids (LEU2, HIS3, LYS2, and URA3) together to grow at 25 MPa, thereby suggesting close links between the genes and nutrient uptake. Most of the highly ranked genes were poorly characterized, including MAY24/YPR153W.

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In Saccharomyces cerevisiae, high-affinity tryptophan import is mediated by the plasma membrane permease Tat2. Herein, we identified hyperactive Tat2 mutations, I285V and I285T, which allowed the cells to grow at very low tryptophan concentrations (<4 μg/mL). The K value of wild-type Tat2 for tryptophan appeared to be 24 μg/mL, whereas that of Tat2 and Tat2 was 17 and 11 μg/mL, respectively.

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